/**
 * Furnace Tracker - multi-system chiptune tracker
 * Copyright (C) 2021-2025 tildearrow and contributors
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License along
 * with this program; if not, write to the Free Software Foundation, Inc.,
 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
 */

#define _USE_MATH_DEFINES
#include "gui.h"
#include "../ta-log.h"
#include "imgui_internal.h"
#include "../engine/macroInt.h"
// i don't know whether this is the right thing to do
#include "../engine/platform/sound/sid3.h"
#include "IconsFontAwesome4.h"
#include "furIcons.h"
#include "misc/cpp/imgui_stdlib.h"
#include "guiConst.h"
#include "intConst.h"
#include <fmt/printf.h>
#include <imgui.h>
#include "plot_nolerp.h"
#include "util.h"

extern "C" {
#include "../../extern/Nuked-OPLL/opll.h"
}

const char* ssgEnvTypes[8]={
  _N("Down Down Down"),
  _N("Down."),
  _N("Down Up Down Up"),
  _N("Down UP"),
  _N("Up Up Up"),
  _N("Up."),
  _N("Up Down Up Down"),
  _N("Up DOWN")
};

const char* fmParamNames[3][33]={
  {_N("Algorithm"), _N("Feedback"), _N("LFO > Freq"), _N("LFO > Amp"), _N("Attack"), _N("Decay"), _N("Decay 2"), _N("Release"), _N("Sustain"), _N("Level"), _N("EnvScale"), _N("Multiplier"), _N("Detune"), _N("Detune 2"), _N("SSG-EG"), _N("AM"), _N("AM Depth"), _N("Vibrato Depth"), _N("Sustained"), _N("Sustained"), _N("Level Scaling"), _N("Sustain"), _N("Vibrato"), _N("Waveform"), _N("Scale Rate"), _N("OP2 Half Sine"), _N("OP1 Half Sine"), _N("EnvShift"), _N("Reverb"), _N("Fine"), _N("LFO2 > Freq"), _N("LFO2 > Amp"), _N("Octave")},
  {"ALG", "FB", "FMS/PMS", "AMS", "AR", "DR", "SR", "RR", "SL", "TL", "KS", "MULT", "DT", "DT2", "SSG-EG", "AM", "AMD", "FMD", "EGT", "EGT", "KSL", "SUS", "VIB", "WS", "KSR", "DC", "DM", "EGS", "REV", "Fine", "FMS/PMS2", "AMS2", "Block"},
  {"ALG", "FB", "FMS/PMS", "AMS", "AR", "DR", "D2R", "RR", "SL", "TL", "RS", "MULT", "DT", "DT2", "SSG-EG", "AM", "DAM", "DVB", "EGT", "EGS", "KSL", "SUS", "VIB", "WS", "KSR", "DC", "DM", "EGS", "REV", "Fine", "FMS/PMS2", "AMS2", "Block"}
};

const char* esfmParamLongNames[9]={
  _N("OP4 Noise Mode"),
  _N("Envelope Delay"),
  _N("Output Level"),
  _N("Modulation Input Level"),
  _N("Left Output"),
  _N("Right Output"),
  _N("Coarse Tune (semitones)"),
  _N("Detune"),
  _N("Fixed Frequency Mode")
};

const char* esfmParamNames[9]={
  _N("OP4 Noise Mode"),
  _N("Env. Delay"),
  _N("Output Level"),
  _N("ModInput"),
  _N("Left"),
  _N("Right"),
  _N("Tune"),
  _N("Detune"),
  _N("Fixed")
};

const char* esfmParamShortNames[9]={
  "NOI", "DL", "OL", "MI", "L", "R", "CT", "DT", "FIX"
};

const char* fmParamShortNames[3][32]={
  {"ALG", "FB", "FMS", "AMS", "A", "D", "D2", "R", "S", "TL", "RS", "ML", "DT", "DT2", "SSG", "AM", "DAM", "DVB", "SUS", "SUS", "KSL", "SUS", "VIB", "WS", "KSR", "DC", "DM", "EGS", "REV", "Fine", "FMS2", "AMS2"},
  {"ALG", "FB", "FMS", "AMS", "A", "D", "SR", "R", "S", "TL", "KS", "ML", "DT", "DT2", "SSG", "AM", "AMD", "FMD", "EGT", "EGT", "KSL", "SUS", "VIB", "WS", "KSR", "DC", "DM", "EGS", "REV", "Fine", "FMS2", "AMS2"},
  {"ALG", "FB", "FMS", "AMS", "A", "D", "D2", "R", "S", "TL", "RS", "ML", "DT", "DT2", "SSG", "AM", "DAM", "DVB", "EGT", "EGS", "KSL", "SUS", "VIB", "WS", "KSR", "DC", "DM", "EGS", "REV", "Fine", "FMS2", "AMS2"}
};

const char* opllVariants[4]={
  "OPLL",
  "YMF281",
  "YM2423",
  "VRC7"
};

const char* opllInsNames[4][17]={
  /* YM2413 */ {
    _N("User"),
    _N("1. Violin"),
    _N("2. Guitar"),
    _N("3. Piano"),
    _N("4. Flute"),
    _N("5. Clarinet"),
    _N("6. Oboe"),
    _N("7. Trumpet"),
    _N("8. Organ"),
    _N("9. Horn"),
    _N("10. Synth"),
    _N("11. Harpsichord"),
    _N("12. Vibraphone"),
    _N("13. Synth Bass"),
    _N("14. Acoustic Bass"),
    _N("15. Electric Guitar"),
    _N("Drums")
  },
  /* YMF281 */ {
    _N("User"),
    _N("1. Electric String"),
    _N("2. Bow wow"),
    _N("3. Electric Guitar"),
    _N("4. Organ"),
    _N("5. Clarinet"),
    _N("6. Saxophone"),
    _N("7. Trumpet"),
    _N("8. Street Organ"),
    _N("9. Synth Brass"),
    _N("10. Electric Piano"),
    _N("11. Bass"),
    _N("12. Vibraphone"),
    _N("13. Chime"),
    _N("14. Tom Tom II"),
    _N("15. Noise"),
    _N("Drums")
  },
  /* YM2423 */ {
    _N("User"),
    _N("1. Strings"),
    _N("2. Guitar"),
    _N("3. Electric Guitar"),
    _N("4. Electric Piano"),
    _N("5. Flute"),
    _N("6. Marimba"),
    _N("7. Trumpet"),
    _N("8. Harmonica"),
    _N("9. Tuba"),
    _N("10. Synth Brass"),
    _N("11. Short Saw"),
    _N("12. Vibraphone"),
    _N("13. Electric Guitar 2"),
    _N("14. Synth Bass"),
    _N("15. Sitar"),
    _N("Drums")
  },
  // stolen from FamiTracker
  /* VRC7 */ {
    _N("User"),
    _N("1. Bell"),
    _N("2. Guitar"),
    _N("3. Piano"),
    _N("4. Flute"),
    _N("5. Clarinet"),
    _N("6. Rattling Bell"),
    _N("7. Trumpet"),
    _N("8. Reed Organ"),
    _N("9. Soft Bell"),
    _N("10. Xylophone"),
    _N("11. Vibraphone"),
    _N("12. Brass"),
    _N("13. Bass Guitar"),
    _N("14. Synth"),
    _N("15. Chorus"),
    _N("Drums")
  }
};

const char* oplWaveforms[8]={
  _N("Sine"),
  _N("Half Sine"),
  _N("Absolute Sine"),
  _N("Quarter Sine"),
  _N("Squished Sine"),
  _N("Squished AbsSine"),
  _N("Square"),
  _N("Derived Square")
};

const char* oplWaveformsStandard[8]={
  _N("Sine"),
  _N("Half Sine"),
  _N("Absolute Sine"),
  _N("Pulse Sine"),
  _N("Sine (Even Periods)"),
  _N("AbsSine (Even Periods)"),
  _N("Square"),
  _N("Derived Square")
};

const char* opzWaveforms[8]={
  _N("Sine"),
  _N("Triangle"),
  _N("Cut Sine"),
  _N("Cut Triangle"),
  _N("Squished Sine"),
  _N("Squished Triangle"),
  _N("Squished AbsSine"),
  _N("Squished AbsTriangle")
};

const char* oplDrumNames[4]={
  _N("Snare"),
  _N("Tom"),
  _N("Top"),
  _N("HiHat")
};

const char* esfmNoiseModeNames[4]={
  _N("Normal"),
  _N("Snare"),
  _N("HiHat"),
  _N("Top")
};

const char* esfmNoiseModeDescriptions[4]={
  _N("Noise disabled"),
  _N("Square + noise"),
  _N("Ringmod from OP3 + noise"),
  _N("Ringmod from OP3 + double pitch ModInput\nWARNING - has emulation issues; subject to change")
};

const char* sid2WaveMixModes[5]={
  _N("8580 SID"),
  _N("Bitwise AND"),
  _N("Bitwise OR"),
  _N("Bitwise XOR"),
  NULL
};

const char* sid2ControlBits[4]={
  _N("gate"),
  _N("sync"),
  _N("ring"),
  NULL
};

const char* sid3ControlBits[4]={
  _N("phase"),
  _N("sync"),
  _N("ring"),
  NULL
};

const char* sid3WaveMixModes[6]={
  _N("8580 SID"),
  _N("Bitwise AND"),
  _N("Bitwise OR"),
  _N("Bitwise XOR"),
  _N("Sum of the signals"),
  NULL
};

const char* sid3SpecialWaveforms[]={
  _N("Sine"),
  _N("Rect. Sine"),
  _N("Abs. Sine"),
  _N("Quart. Sine"),
  _N("Squish. Sine"),
  _N("Abs. Squish. Sine"),

  _N("Rect. Saw"),
  _N("Abs. Saw"),

  _N("Cubed Saw"),
  _N("Rect. Cubed Saw"),
  _N("Abs. Cubed Saw"),

  _N("Cubed Sine"),
  _N("Rect. Cubed Sine"),
  _N("Abs. Cubed Sine"),
  _N("Quart. Cubed Sine"),
  _N("Squish. Cubed Sine"),
  _N("Squish. Abs. Cub. Sine"),

  _N("Rect. Triangle"),
  _N("Abs. Triangle"),
  _N("Quart. Triangle"),
  _N("Squish. Triangle"),
  _N("Abs. Squish. Triangle"),

  _N("Cubed Triangle"),
  _N("Rect. Cubed Triangle"),
  _N("Abs. Cubed Triangle"),
  _N("Quart. Cubed Triangle"),
  _N("Squish. Cubed Triangle"),
  _N("Squish. Abs. Cub. Triangle"),

  // clipped

  _N("Clipped Sine"),
  _N("Clipped Rect. Sine"),
  _N("Clipped Abs. Sine"),
  _N("Clipped Quart. Sine"),
  _N("Clipped Squish. Sine"),
  _N("Clipped Abs. Squish. Sine"),

  _N("Clipped Rect. Saw"),
  _N("Clipped Abs. Saw"),

  _N("Clipped Cubed Saw"),
  _N("Clipped Rect. Cubed Saw"),
  _N("Clipped Abs. Cubed Saw"),

  _N("Clipped Cubed Sine"),
  _N("Clipped Rect. Cubed Sine"),
  _N("Clipped Abs. Cubed Sine"),
  _N("Clipped Quart. Cubed Sine"),
  _N("Clipped Squish. Cubed Sine"),
  _N("Clipped Squish. Abs. Cub. Sine"),

  _N("Clipped Rect. Triangle"),
  _N("Clipped Abs. Triangle"),
  _N("Clipped Quart. Triangle"),
  _N("Clipped Squish. Triangle"),
  _N("Clipped Abs. Squish. Triangle"),

  _N("Clipped Cubed Triangle"),
  _N("Clipped Rect. Cubed Triangle"),
  _N("Clipped Abs. Cubed Triangle"),
  _N("Clipped Quart. Cubed Triangle"),
  _N("Clipped Squish. Cubed Triangle"),
  _N("Clipped Squish. Abs. Cub. Triangle"),

  // two clipped simple waves

  _N("Clipped Triangle"),
  _N("Clipped Saw")
};

const bool opIsOutput[8][4]={
  {false,false,false,true},
  {false,false,false,true},
  {false,false,false,true},
  {false,false,false,true},
  {false,true,false,true},
  {false,true,true,true},
  {false,true,true,true},
  {true,true,true,true}
};

const bool opIsOutputOPL[4][4]={
  {false,false,false,true},
  {true,false,false,true},
  {false,true,false,true},
  {true,false,true,true}
};

enum FMParams {
  FM_ALG=0,
  FM_FB=1,
  FM_FMS=2,
  FM_AMS=3,
  FM_AR=4,
  FM_DR=5,
  FM_D2R=6,
  FM_RR=7,
  FM_SL=8,
  FM_TL=9,
  FM_RS=10,
  FM_MULT=11,
  FM_DT=12,
  FM_DT2=13,
  FM_SSG=14,
  FM_AM=15,
  FM_DAM=16,
  FM_DVB=17,
  FM_EGT=18,
  FM_EGS=19,
  FM_KSL=20,
  FM_SUS=21,
  FM_VIB=22,
  FM_WS=23,
  FM_KSR=24,
  FM_DC=25,
  FM_DM=26,
  FM_EGSHIFT=27,
  FM_REV=28,
  FM_FINE=29,
  FM_FMS2=30,
  FM_AMS2=31,
  FM_BLOCK=32
};

enum ESFMParams {
  ESFM_NOISE=0,
  ESFM_DELAY=1,
  ESFM_OUTLVL=2,
  ESFM_MODIN=3,
  ESFM_LEFT=4,
  ESFM_RIGHT=5,
  ESFM_CT=6,
  ESFM_DT=7,
  ESFM_FIXED=8
};

#define FM_NAME(x) _(fmParamNames[settings.fmNames][x])
#define FM_SHORT_NAME(x) fmParamShortNames[settings.fmNames][x]
#define ESFM_LONG_NAME(x) _(esfmParamLongNames[x])
#define ESFM_NAME(x) _(esfmParamNames[x])
#define ESFM_SHORT_NAME(x) (esfmParamShortNames[x])

const char* macroTypeLabels[4]={
  ICON_FA_BAR_CHART "##IMacroType",
  ICON_FUR_ADSR "##IMacroType",
  ICON_FUR_TRI "##IMacroType",
  ICON_FA_SIGN_OUT "##IMacroType"
};

const char* macroLFOShapes[4]={
  _N("Triangle"),
  _N("Saw"),
  _N("Square"),
  _N("How did you even")
};

const char* fmOperatorBits[5]={
  "op1", "op2", "op3", "op4", NULL
};

const char* c64ShapeBits[5]={
  _N("triangle"),
  _N("saw"),
  _N("pulse"),
  _N("noise"),
  NULL
};

const char* ayShapeBits[4]={
  _N("tone"),
  _N("noise"),
  _N("envelope"),
  NULL
};

const char* sid3ShapeBits[6]={
  _N("triangle"),
  _N("saw"),
  _N("pulse"),
  _N("noise"),
  _N("special wave"),
  NULL
};

const char* sid3FilterMatrixBits[5]={
  _N("From filter 1"),
  _N("From filter 2"),
  _N("From filter 3"),
  _N("From filter 4"),
  NULL
};

const char* ayEnvBits[4]={
  _N("hold"),
  _N("alternate"),
  _N("direction"),
  _N("enable")
};

const char* ssgEnvBits[5]={
  "0", "1", "2", _N("enabled"), NULL
};

const char* saaEnvBits[9]={
  _N("mirror"),
  _N("loop"),
  _N("cut"),
  _N("direction"),
  _N("resolution"),
  _N("fixed"),
  _N("N/A"),
  _N("enabled"),
  NULL
};

const char* snesModeBits[6]={
  _N("noise"),
  _N("echo"),
  _N("pitch mod"),
  _N("invert right"),
  _N("invert left"),
  NULL
};

const char* filtModeBits[5]={
  _N("low"),
  _N("band"),
  _N("high"),
  _N("ch3off"),
  NULL
};

const char* c64TestGateBits[5]={
  _N("gate"),
  _N("sync"),
  _N("ring"),
  _N("test"),
  NULL
};

const char* pokeyCtlBits[9]={
  _N("15KHz"),
  _N("filter 2+4"),
  _N("filter 1+3"),
  _N("16-bit 3+4"),
  _N("16-bit 1+2"),
  _N("high3"),
  _N("high1"),
  _N("poly9"),
  NULL
};

const char* mikeyFeedbackBits[11]={
  "0", "1", "2", "3", "4", "5", "7", "10", "11", "int", NULL
};

const char* msm5232ControlBits[7]={
  _N("16'"),
  _N("8'"),
  _N("4'"),
  _N("2'"),
  _N("sustain"),
  NULL
};

const char* tedControlBits[3]={
  _N("square"),
  _N("noise"),
  NULL
};

const char* c219ControlBits[4]={
  _N("noise"),
  _N("invert"),
  _N("surround"),
  NULL
};

const char* x1_010EnvBits[8]={
  _N("enable"),
  _N("oneshot"),
  _N("split L/R"),
  _N("HinvR"),
  _N("VinvR"),
  _N("HinvL"),
  _N("VinvL"),
  NULL
};

const char* suControlBits[5]={
  _N("ring mod"),
  _N("low pass"),
  _N("high pass"),
  _N("band pass"),
  NULL
};

const char* es5506FilterModes[4]={
  "HP/K2, HP/K2", "HP/K2, LP/K1", "LP/K2, LP/K2", "LP/K2, LP/K1",
};

const char* powerNoiseControlBits[3]={
  _N("enable tap B"),
  _N("AM with slope"),
  NULL
};

const char* powerNoiseSlopeControlBits[7]={
  _N("invert B"),
  _N("invert A"),
  _N("reset B"),
  _N("reset A"),
  _N("clip B"),
  _N("clip A"),
  NULL
};

const char* daveControlBits[5]={
  _N("high pass"),
  _N("ring mod"),
  _N("swap counters (noise)"),
  _N("low pass (noise)"),
  NULL
};

const char* panBits[5]={
  _N("right"),
  _N("left"),
  _N("rear right"),
  _N("rear left"),
  NULL
};

const char* oneBit[2]={
  _N("on"),
  NULL
};

const char* es5506EnvelopeModes[3]={
  _N("k1 slowdown"),
  _N("k2 slowdown"),
  NULL
};

const char* es5506ControlModes[3]={
  _N("pause"),
  _N("reverse"),
  NULL
};

const char* minModModeBits[3]={
  _N("invert right"),
  _N("invert left"),
  NULL
};

const int orderedOps[4]={
  0, 2, 1, 3
};

const char* singleWSEffects[7]={
  _N("None"),
  _N("Invert"),
  _N("Add"),
  _N("Subtract"),
  _N("Average"),
  _N("Phase"),
  _N("Chorus")
};

const char* dualWSEffects[9]={
  _N("None (dual)"),
  _N("Wipe"),
  _N("Fade"),
  _N("Fade (ping-pong)"),
  _N("Overlay"),
  _N("Negative Overlay"),
  _N("Slide"),
  _N("Mix Chorus"),
  _N("Phase Modulation")
};

const char* gbHWSeqCmdTypes[6]={
  _N("Envelope"),
  _N("Sweep"),
  _N("Wait"),
  _N("Wait for Release"),
  _N("Loop"),
  _N("Loop until Release")
};

const char* suHWSeqCmdTypes[7]={
  _N("Volume Sweep"),
  _N("Frequency Sweep"),
  _N("Cutoff Sweep"),
  _N("Wait"),
  _N("Wait for Release"),
  _N("Loop"),
  _N("Loop until Release")
};

const char* snesGainModes[5]={
  _N("Direct"),
  _N("Decrease (linear)"),
  _N("Decrease (logarithmic)"),
  _N("Increase (linear)"),
  _N("Increase (bent line)")
};

const int detuneMap[2][8]={
  {-3, -2, -1, 0, 1, 2, 3, 4},
  { 7,  6,  5, 0, 1, 2, 3, 4}
};

const int detuneUnmap[2][11]={
  {0, 1, 2, 3, 4, 5, 6, 7, 0, 0, 0},
  {0, 0, 0, 3, 4, 5, 6, 7, 2, 1, 0}
};

const int kslMap[4]={
  0, 2, 1, 3
};

const int _SID3_SPECIAL_WAVES=SID3_NUM_SPECIAL_WAVES-1;
const int _SID3_NUM_CHANNELS=SID3_NUM_CHANNELS;
const int _SID3_NUM_CHANNELS_MINUS_ONE=SID3_NUM_CHANNELS-1;

// do not change these!
// anything other than a checkbox will look ugly!
//
// if you really need to, and have a good rationale (and by good I mean a VERY
// good one), please tell me and we'll sort it out.
const char* macroAbsoluteMode="Fixed";
const char* macroRelativeMode="Relative";
const char* macroQSoundMode="QSound";
const char* macroDummyMode="Bug";

String macroHoverNote(int id, float val, void* u) {
  int* macroVal=(int*)u;
  if ((macroVal[id]&0xc0000000)==0x40000000 || (macroVal[id]&0xc0000000)==0x80000000) {
    if (val<-60 || val>=120) return "???";
    return fmt::sprintf("%d: %s",id,noteNames[(int)val+60]);
  }
  return fmt::sprintf("%d: %d",id,(int)val);
}

String macroHover(int id, float val, void* u) {
  return fmt::sprintf("%d: %d",id,(int)val);
}

String macroHoverLoop(int id, float val, void* u) {
  if (val>1) return _("Release");
  if (val>0) return _("Loop");
  return "";
}

String macroHoverBit30(int id, float val, void* u) {
  if (val>0) return _("Fixed");
  return _("Relative");
}

String macroHoverGain(int id, float val, void* u) {
  if (val>=224.0f) {
    return fmt::sprintf(_("%d: +%d (exponential)"),id,(int)(val-224));
  }
  if (val>=192.0f) {
    return fmt::sprintf(_("%d: +%d (linear)"),id,(int)(val-192));
  }
  if (val>=160.0f) {
    return fmt::sprintf(_("%d: -%d (exponential)"),id,(int)(val-160));
  }
  if (val>=128.0f) {
    return fmt::sprintf(_("%d: -%d (linear)"),id,(int)(val-128));
  }
  return fmt::sprintf(_("%d: %d (direct)"),id,(int)val);
}

String macroHoverES5506FilterMode(int id, float val, void* u) {
  String mode="???";
  switch (((int)val)&3) {
    case 0:
      mode=_("HP/K2, HP/K2");
      break;
    case 1:
      mode=_("HP/K2, LP/K1");
      break;
    case 2:
      mode=_("LP/K2, LP/K2");
      break;
    case 3:
      mode=_("LP/K2, LP/K1");
      break;
    default:
      break;
  }
  return fmt::sprintf("%d: %s",id,mode);
}

String macroLFOWaves(int id, float val, void* u) {
  const char* label="???";
  switch (((int)val)&3) {
    case 0:
      label=_("Saw");
      break;
    case 1:
      label=_("Square");
      break;
    case 2:
      label=_("Triangle");
      break;
    case 3:
      label=_("Random");
      break;
    default: break;
  }
  return fmt::sprintf("%d: %s",id,label);
}

String macroVERAWaves(int id, float val, void* u) {
  const char* label="???";
  switch (((int)val)&3) {
    case 0:
      label=_("Pulse");
      break;
    case 1:
      label=_("Saw");
      break;
    case 2:
      label=_("Triangle");
      break;
    case 3:
      label=_("Noise");
      break;
    default: break;
  }
  return fmt::sprintf("%d: %s",id,label);
}

String macroSoundUnitWaves(int id, float val, void* u) {
  const char* label="???";
  switch (((int)val)&7) {
    case 0:
      label=_("Square");
      break;
    case 1:
      label=_("Saw");
      break;
    case 2:
      label=_("Sine");
      break;
    case 3:
      label=_("Triangle");
      break;
    case 4:
      label=_("Noise");
      break;
    case 5:
      label=_("Short Noise");
      break;
    case 6:
      label=_("XOR Sine");
      break;
    case 7:
      label=_("XOR Triangle");
      break;
    default: break;
  }
  return fmt::sprintf("%d: %s",id,label);
}

String macroTFXModes(int id, float val, void* u) {
  switch (((int)val)&3) {
    case 0:
      return _("Disabled");
    case 1:
      return _("PWM");
    case 2:
      return _("SyncBuzzer");
    case 3:
      return _("Reserved");
    default:
      return "???";
  }
  return "???";
}

String macroSID3SpecialWaves(int id, float val, void* u) {
  if ((int)val<0 || (int)val>=SID3_NUM_SPECIAL_WAVES) return "???";

  return fmt::sprintf("%d: %s",id,_(sid3SpecialWaveforms[(int)val%SID3_NUM_SPECIAL_WAVES]));
}

String macroSID3SourceChan(int id, float val, void* u) {
  if ((int)val>SID3_NUM_CHANNELS) return "???";

  if ((int)val==SID3_NUM_CHANNELS) {
    return _("Self");
  } else if ((int)val==SID3_NUM_CHANNELS-1) {
    return _("PCM/Wave channel");
  } else {
    return fmt::sprintf(_("Channel %d"),(int)val+1);
  }
}

String macroSID3NoiseLFSR(int id, float val, void* u) {
  return _(
    "values close to SID2 noise modes:\n\n"
    "Mode 1: 524288\n"
    "Mode 2: 66\n"
    "Mode 3: 541065280"
  );
}

String macroSID2WaveMixMode(int id, float val, void* u) {
  if ((int)val<0 || (int)val>3) return "???";

  return fmt::sprintf("%d: %s",id,_(sid2WaveMixModes[(int)val]));
}

String macroSID3WaveMixMode(int id, float val, void* u) {
  if ((int)val<0 || (int)val>4) return "???";

  return fmt::sprintf("%d: %s",id,_(sid3WaveMixModes[(int)val]));
}

void addAALine(ImDrawList* dl, const ImVec2& p1, const ImVec2& p2, const ImU32 color, float thickness=1.0f) {
  ImVec2 pt[2];
  pt[0]=p1;
  pt[1]=p2;
  dl->AddPolyline(pt,2,color,ImDrawFlags_None,thickness);
}

void FurnaceGUI::drawSSGEnv(unsigned char type, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_SSG]);
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("ssgEnvDisplay"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);
    switch (type) {
      case 0:
        for (int i=0; i<4; i++) {
          ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2((float)i/4.0f,0.2));
          ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2((float)(i+1)/4.0f,0.8));
          addAALine(dl,pos1,pos2,color);
          pos1.x=pos2.x;
          if (i<3) addAALine(dl,pos1,pos2,color);
        }
        break;
      case 1: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.2));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.8));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.8));
        addAALine(dl,pos1,pos2,color);
        break;
      }
      case 2: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.2));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.8));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.2));
        addAALine(dl,pos1,pos2,color);

        pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.8));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.2));
        addAALine(dl,pos1,pos2,color);
        break;
      }
      case 3: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.2));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.8));
        addAALine(dl,pos1,pos2,color);

        pos1.x=pos2.x;
        addAALine(dl,pos1,pos2,color);

        pos2=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.2));
        addAALine(dl,pos1,pos2,color);
        break;
      }
      case 4:
        for (int i=0; i<4; i++) {
          ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2((float)i/4.0f,0.8));
          ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2((float)(i+1)/4.0f,0.2));
          addAALine(dl,pos1,pos2,color);
          pos1.x=pos2.x;
          if (i<3) addAALine(dl,pos1,pos2,color);
        }
        break;
      case 5: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.8));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.2));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.2));
        addAALine(dl,pos1,pos2,color);
        break;
      }
      case 6: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.8));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.2));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.8));
        addAALine(dl,pos1,pos2,color);

        pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.2));
        addAALine(dl,pos1,pos2,color);

        pos1=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.8));
        addAALine(dl,pos1,pos2,color);
        break;
      }
      case 7: {
        ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,0.8));
        ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.2));
        addAALine(dl,pos1,pos2,color);

        pos1.x=pos2.x;
        addAALine(dl,pos1,pos2,color);

        pos2=ImLerp(rect.Min,rect.Max,ImVec2(1.0,0.8));
        addAALine(dl,pos1,pos2,color);
        break;
      }
    }
  }
}

void FurnaceGUI::drawWaveform(unsigned char type, bool opz, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 waveform[65];
  const size_t waveformLen=64;

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_WAVE]);
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("wsDisplay"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);
    if (opz) {
      switch (type) {
        case 0:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=sin(x*2.0*M_PI);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 1:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=pow(sin(x*2.0*M_PI),2.0);
            if (x>=0.5) y=-y;
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 2:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=MAX(0.0,sin(x*2.0*M_PI));
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 3:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=pow(MAX(0.0,sin(x*2.0*M_PI)),2.0);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 4:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:sin(x*4.0*M_PI);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 5:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:pow(sin(x*4.0*M_PI),2.0);
            if (x>=0.25) y=-y;
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 6:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:fabs(sin(x*4.0*M_PI));
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 7:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:pow(sin(x*4.0*M_PI),2.0);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
      }
    } else {
      switch (type) {
        case 0:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=sin(x*2.0*M_PI);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 1:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=MAX(0.0,sin(x*2.0*M_PI));
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 2:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=fabs(sin(x*2.0*M_PI));
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 3:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=fabs((tan(x*2.0*M_PI)>=0.0)?sin(x*2.0*M_PI):0.0);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 4:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:sin(x*4.0*M_PI);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 5:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?0.0:fabs(sin(x*4.0*M_PI));
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 6:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=(x>=0.5)?-1.0:1.0;
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
        case 7:
          for (size_t i=0; i<=waveformLen; i++) {
            float x=(float)i/(float)waveformLen;
            float y=pow(2.0*(x-0.5),3.0);
            waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
          }
          break;
      }
    }
    dl->AddPolyline(waveform,waveformLen+1,color,ImDrawFlags_None,dpiScale);
  }
}

typedef double (*WaveFunc) (double a);

WaveFunc waveFuncsIns[]={
  sinus,
  rectSin,
  absSin,
  quartSin,
  squiSin,
  squiAbsSin,
  
  rectSaw,
  absSaw,
  
  cubSaw,
  rectCubSaw,
  absCubSaw,
  
  cubSine,
  rectCubSin,
  absCubSin,
  quartCubSin,
  squishCubSin,
  squishAbsCubSin,

  rectTri,
  absTri,
  quartTri,
  squiTri,
  absSquiTri,

  cubTriangle,
  cubRectTri,
  cubAbsTri,
  cubQuartTri,
  cubSquiTri,
  absCubSquiTri
};

void FurnaceGUI::drawWaveformSID3(unsigned char type, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 waveform[65];
  const size_t waveformLen=64;

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_WAVE]);
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("SID3wsDisplay"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);

    if (type<SID3_NUM_UNIQUE_SPECIAL_WAVES) {
      for (size_t i=0; i<=waveformLen; i++) {
        float x=(float)i/(float)waveformLen;
        float y=waveFuncsIns[type](x*2.0*M_PI);
        waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
      }
    } else if (type>=SID3_NUM_UNIQUE_SPECIAL_WAVES && type<SID3_NUM_UNIQUE_SPECIAL_WAVES*2) {
      for (size_t i=0; i<=waveformLen; i++) {
        float x=(float)i/(float)waveformLen;
        float y=waveFuncsIns[type-SID3_NUM_UNIQUE_SPECIAL_WAVES](x*2.0*M_PI);

        y*=2.0f; // clipping

        if (y>1.0f) y=1.0f;
        if (y<-1.0f) y=-1.0f;

        waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.48));
      }
    } else {
      if (type==SID3_NUM_UNIQUE_SPECIAL_WAVES*2) {
        for (size_t i=0; i<=waveformLen; i++) {
          float x=(float)i/(float)waveformLen;
          float y=triangle(x*2.0*M_PI);

          y*=2.0f; // clipping

          if (y>1.0f) y=1.0f;
          if (y<-1.0f) y=-1.0f;

          waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
        }
      }
      if (type==SID3_NUM_UNIQUE_SPECIAL_WAVES*2+1) {
        for (size_t i=0; i<=waveformLen; i++) {
          float x=(float)i/(float)waveformLen;
          float y=saw(x*2.0*M_PI);

          y*=2.0f; // clipping

          if (y>1.0f) y=1.0f;
          if (y<-1.0f) y=-1.0f;

          waveform[i]=ImLerp(rect.Min,rect.Max,ImVec2(x,0.5-y*0.4));
        }
      }
    }

    dl->AddPolyline(waveform,waveformLen+1,color,ImDrawFlags_None,dpiScale);
  }
}

void FurnaceGUI::drawAlgorithm(unsigned char alg, FurnaceGUIFMAlgs algType, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 colorM=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_MOD]);
  ImU32 colorC=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_CAR]);
  ImU32 colorL=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ALG_LINE]);
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("alg"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ALG_BG]),true,style.FrameRounding);
    const float circleRadius=6.0f*dpiScale+1.0f;
    switch (algType) {
      case FM_ALGS_4OP:
        switch (alg) {
          case 0: { // 1 > 2 > 3 > 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.2,0.5));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.4,0.5));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.6,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.8,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("1").x*0.5;
            pos2.x-=ImGui::CalcTextSize("2").x*0.5;
            pos3.x-=ImGui::CalcTextSize("3").x*0.5;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y+circleRadius;
            pos2.y-=ImGui::CalcTextSize("2").y+circleRadius;
            pos3.y-=ImGui::CalcTextSize("3").y+circleRadius;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 1: { // (1+2) > 3 > 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.7));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos3,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos1.x=pos2.x;
            pos3.x-=ImGui::CalcTextSize("3").x*0.5;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y+circleRadius;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 2: { // 1+(2>3) > 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.7));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.7));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos4,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 3: { // (1>2)+3 > 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.3));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.7));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos4,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 4: { // (1>2) + (3>4)
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.3));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.7));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.7));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos2,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorC,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 5: { // 1 > (2+3+4)
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.5));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.25));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.75));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            addAALine(dl,pos1,pos3,colorL);
            addAALine(dl,pos1,pos4,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos2,pos5,colorL);
            addAALine(dl,pos3,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorC,"2");
            dl->AddText(pos3,colorC,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 6: { // (1>2) + 3 + 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.25));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.25));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.75));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos2,pos5,colorL);
            addAALine(dl,pos3,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorC,"2");
            dl->AddText(pos3,colorC,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 7: { // 1 + 2 + 3 + 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.2));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.35,0.4));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.45,0.6));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.55,0.8));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos1,pos5,colorL);
            addAALine(dl,pos2,pos5,colorL);
            addAALine(dl,pos3,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorC,"1");
            dl->AddText(pos2,colorC,"2");
            dl->AddText(pos3,colorC,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
        }
        break;
      case FM_ALGS_2OP_OPL:
        switch (alg) {
          case 0: { // 1 > 2
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.33,0.5));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.67,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x+=circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorC,"2");
            break;
          }
          case 1: { // 1 + 2
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.33,0.5));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.67,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x+=circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            dl->AddText(pos1,colorC,"1");
            dl->AddText(pos2,colorC,"2");
            break;
          }
        }
        break;
      case FM_ALGS_4OP_OPL:
        switch (alg) {
          case 0: { // 1 > 2 > 3 > 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.2,0.5));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.4,0.5));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.6,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.8,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            pos1.x-=ImGui::CalcTextSize("1").x*0.5;
            pos2.x-=ImGui::CalcTextSize("2").x*0.5;
            pos3.x-=ImGui::CalcTextSize("3").x*0.5;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y+circleRadius;
            pos2.y-=ImGui::CalcTextSize("2").y+circleRadius;
            pos3.y-=ImGui::CalcTextSize("3").y+circleRadius;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 1: { // 1 + (2 > 3 > 4)
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.4,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.2,0.7));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.4,0.7));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.6,0.7));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.8,0.7));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos1,pos5,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);

            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x*0.5;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y+circleRadius;
            dl->AddText(pos1,colorC,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 2: { // (1>2) + (3>4)
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.3));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.3));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.7));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.7));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos1,pos2,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorM);
            addAALine(dl,pos3,pos4,colorL);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos2,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorM,"1");
            dl->AddText(pos2,colorC,"2");
            dl->AddText(pos3,colorM,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
          case 3: { // 1 + (2 > 3) + 4
            ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.25));
            ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(0.25,0.5));
            ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.5));
            ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(0.5,0.75));
            ImVec2 pos5=ImLerp(rect.Min,rect.Max,ImVec2(0.75,0.5));
            dl->AddCircleFilled(pos1,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircle(pos1,6.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos2,pos3,colorL);
            dl->AddCircleFilled(pos2,4.0f*dpiScale+1.0f,colorM);
            dl->AddCircleFilled(pos3,4.0f*dpiScale+1.0f,colorC);
            dl->AddCircleFilled(pos4,4.0f*dpiScale+1.0f,colorC);
            addAALine(dl,pos1,pos5,colorL);
            addAALine(dl,pos3,pos5,colorL);
            addAALine(dl,pos4,pos5,colorL);

            pos1.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0*dpiScale;
            pos3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0*dpiScale;
            pos4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0*dpiScale;
            pos1.y-=ImGui::CalcTextSize("1").y*0.5;
            pos2.y-=ImGui::CalcTextSize("2").y*0.5;
            pos3.y-=ImGui::CalcTextSize("3").y*0.5;
            pos4.y-=ImGui::CalcTextSize("4").y*0.5;
            dl->AddText(pos1,colorC,"1");
            dl->AddText(pos2,colorM,"2");
            dl->AddText(pos3,colorC,"3");
            dl->AddText(pos4,colorC,"4");
            break;
          }
        }
        break;
      default:
        break;
    }
  }
}

void FurnaceGUI::drawESFMAlgorithm(DivInstrumentESFM& esfm, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 colorM=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_MOD]);
  ImU32 colorC=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_CAR]);
  ImU32 colorsL[8];
  for (int i=0; i<8; i++){
    float alpha=(float)i/7.0f;
    ImVec4 color=uiColors[GUI_COLOR_FM_ALG_LINE];
    color.w *= alpha;
    colorsL[i]=ImGui::GetColorU32(color);
  }
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("alg"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ALG_BG]),true,style.FrameRounding);
    const float circleRadius=6.0f*dpiScale+1.0f;
    //int modFb = esfm.op[0].modIn&7;
    int mod12 = esfm.op[1].modIn&7;
    int mod23 = esfm.op[2].modIn&7;
    int mod34 = esfm.op[3].modIn&7;
    int out1 = esfm.op[0].outLvl&7;
    int out2 = esfm.op[1].outLvl&7;
    int out3 = esfm.op[2].outLvl&7;
    int out4 = esfm.op[3].outLvl&7;
    bool isMod[4];
    for (int i=0; i<4; i++) {
      DivInstrumentESFM::Operator& opE=esfm.op[i];
      isMod[i]=true;
      if (opE.outLvl==7) isMod[i]=false;
      else if (opE.outLvl>0) {
        if (i==3) isMod[i]=false;
        else {
          DivInstrumentESFM::Operator& opENext=esfm.op[i+1];
          if (opENext.modIn==0) isMod[i]=false;
          else if ((opE.outLvl-opENext.modIn)>=2) isMod[i]=false;
        }
      }
    }

    ImVec2 posOp1=ImLerp(rect.Min,rect.Max,ImVec2(0.2f,0.25f));
    ImVec2 posOp2=ImLerp(rect.Min,rect.Max,ImVec2(0.4f,0.25f));
    ImVec2 posOp3=ImLerp(rect.Min,rect.Max,ImVec2(0.6f,0.25f));
    ImVec2 posOp4=ImLerp(rect.Min,rect.Max,ImVec2(0.8f,0.25f));
    ImVec2 posBusbarOp1=ImLerp(rect.Min,rect.Max,ImVec2(0.2f,0.75f));
    ImVec2 posBusbarOp2=ImLerp(rect.Min,rect.Max,ImVec2(0.4f,0.75f));
    ImVec2 posBusbarOp3=ImLerp(rect.Min,rect.Max,ImVec2(0.6f,0.75f));
    ImVec2 posBusbarOp4=ImLerp(rect.Min,rect.Max,ImVec2(0.8f,0.75f));

    ImVec2 posBusbarStart=ImLerp(rect.Min,rect.Max,ImVec2(0.15f,0.75f));
    ImVec2 posBusbarEnd=ImLerp(rect.Min,rect.Max,ImVec2(0.85f,0.75f));
    bool busbarStartSeen=false;
    for (int i=0; i<4; i++) {
      DivInstrumentESFM::Operator& opE=esfm.op[i];
      if (opE.outLvl>0) {
        if (!busbarStartSeen) {
          busbarStartSeen=true;
          posBusbarStart=ImLerp(rect.Min,rect.Max,ImVec2(0.15f+0.2f*i,0.75f));
        }
        posBusbarEnd=ImLerp(rect.Min,rect.Max,ImVec2(0.25f+0.2f*i,0.75f));
      }
    }

    if (mod12) addAALine(dl,posOp1,posOp2,colorsL[mod12]);
    if (mod23) addAALine(dl,posOp2,posOp3,colorsL[mod23]);
    if (mod34) addAALine(dl,posOp3,posOp4,colorsL[mod34]);
    if (out1) addAALine(dl,posOp1,posBusbarOp1,colorsL[out1]);
    if (out2) addAALine(dl,posOp2,posBusbarOp2,colorsL[out2]);
    if (out3) addAALine(dl,posOp3,posBusbarOp3,colorsL[out3]);
    if (out4) addAALine(dl,posOp4,posBusbarOp4,colorsL[out4]);

    addAALine(dl,posBusbarStart,posBusbarEnd,colorsL[2]);
    // addAALine(dl,posBusbarEnd,posBusbarEnd+ImVec2(-8.0f*dpiScale,-4.0f*dpiScale),colorsL[2]);
    // addAALine(dl,posBusbarEnd,posBusbarEnd+ImVec2(-8.0f*dpiScale,4.0f*dpiScale),colorsL[2]);
    // addAALine(dl,posBusbarStart+ImVec2(4.0f*dpiScale,-4.0f*dpiScale),posBusbarStart+ImVec2(4.0f*dpiScale,4.0f*dpiScale),colorsL[2]);

    dl->AddCircle(posOp1,6.0f*dpiScale+1.0f,isMod[0]?colorM:colorC);
    dl->AddCircleFilled(posOp1,4.0f*dpiScale+1.0f,isMod[0]?colorM:colorC);
    dl->AddCircleFilled(posOp2,4.0f*dpiScale+1.0f,isMod[1]?colorM:colorC);
    dl->AddCircleFilled(posOp3,4.0f*dpiScale+1.0f,isMod[2]?colorM:colorC);
    dl->AddCircleFilled(posOp4,4.0f*dpiScale+1.0f,isMod[3]?colorM:colorC);

    posOp1.x-=ImGui::CalcTextSize("1").x+circleRadius+3.0f*dpiScale;
    posOp2.x-=ImGui::CalcTextSize("2").x+circleRadius+3.0f*dpiScale;
    posOp3.x-=ImGui::CalcTextSize("3").x+circleRadius+3.0f*dpiScale;
    posOp4.x-=ImGui::CalcTextSize("4").x+circleRadius+3.0f*dpiScale;
    posOp1.y-=ImGui::CalcTextSize("1").y*0.5f;
    posOp2.y-=ImGui::CalcTextSize("2").y*0.5f;
    posOp3.y-=ImGui::CalcTextSize("3").y*0.5f;
    posOp4.y-=ImGui::CalcTextSize("4").y*0.5f;
    dl->AddText(posOp1,isMod[0]?colorM:colorC,"1");
    dl->AddText(posOp2,isMod[1]?colorM:colorC,"2");
    dl->AddText(posOp3,isMod[2]?colorM:colorC,"3");
    dl->AddText(posOp4,isMod[3]?colorM:colorC,"4");
  }
}

void FurnaceGUI::drawFMEnv(unsigned char tl, unsigned char ar, unsigned char dr, unsigned char d2r, unsigned char rr, unsigned char sl, unsigned char sus, unsigned char egt, unsigned char algOrGlobalSus, float maxTl, float maxArDr, float maxRr, const ImVec2& size, unsigned short instType) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE]);
  ImU32 colorR=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE_RELEASE]); // Relsease triangle
  ImU32 colorS=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE_SUS_GUIDE]); // Sustain horiz/vert line color
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("fmEnv"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);

    //Adjust for OPLL global sustain setting
    if (instType==DIV_INS_OPLL && algOrGlobalSus==1.0){
      rr = 5.0;
    }
    //calculate x positions
    float arPos=float(maxArDr-ar)/maxArDr; //peak of AR, start of DR
    float drPos=arPos+((sl/15.0)*(float(maxArDr-dr)/maxArDr)); //end of DR, start of D2R
    float d2rPos=drPos+(((15.0-sl)/15.0)*(float(31.0-d2r)/31.0)); //End of D2R
    float rrPos=(float(maxRr-rr)/float(maxRr)); //end of RR

    //shrink all the x positions horizontally
    arPos/=2.0;
    drPos/=2.0;
    d2rPos/=2.0;
    rrPos/=1.0;

    ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,1.0)); //the bottom corner
    ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(arPos,(tl/maxTl))); //peak of AR, start of DR
    ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(drPos,(float)((tl/maxTl)+(sl/15.0)-((tl/maxTl)*(sl/15.0))))); //end of DR, start of D2R
    ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(d2rPos,1.0)); //end of D2R
    ImVec2 posRStart=ImLerp(rect.Min,rect.Max,ImVec2(0.0,(tl/maxTl))); //release start
    ImVec2 posREnd=ImLerp(rect.Min,rect.Max,ImVec2(rrPos,1.0));//release end
    ImVec2 posSLineHEnd=ImLerp(rect.Min,rect.Max,ImVec2(1.0,(float)((tl/maxTl)+(sl/15.0)-((tl/maxTl)*(sl/15.0))))); //sustain horizontal line end
    ImVec2 posSLineVEnd=ImLerp(rect.Min,rect.Max,ImVec2(drPos,1.0)); //sustain vertical line end
    ImVec2 posDecayRate0Pt=ImLerp(rect.Min,rect.Max,ImVec2(1.0,(tl/maxTl))); //Height of the peak of AR, forever
    ImVec2 posDecay2Rate0Pt=ImLerp(rect.Min,rect.Max,ImVec2(1.0,(float)((tl/maxTl)+(sl/15.0)-((tl/maxTl)*(sl/15.0))))); //Height of the peak of SR, forever

    //dl->Flags=ImDrawListFlags_AntiAliasedLines|ImDrawListFlags_AntiAliasedLinesUseTex;
    if (ar==0.0) { //if AR = 0, the envelope never starts
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); //draw release as shaded triangle behind everything
      addAALine(dl,pos1,pos4,color); //draw line on ground
    } else if (dr==0.0 && sl!=0.0) { //if DR = 0 and SL is not 0, then the envelope stays at max volume forever
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); //draw release as shaded triangle behind everything
      //addAALine(dl,pos3,posSLineHEnd,colorS); //draw horiz line through sustain level
      //addAALine(dl,pos3,posSLineVEnd,colorS); //draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); //A
      addAALine(dl,pos2,posDecayRate0Pt,color); //Line from A to end of graph
    } else if (d2r==0.0 || ((instType==DIV_INS_OPL || instType==DIV_INS_SNES || instType==DIV_INS_ESFM) && sus==1.0) || (instType==DIV_INS_OPLL && egt!=0.0)) { //envelope stays at the sustain level forever
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); //draw release as shaded triangle behind everything
      addAALine(dl,pos3,posSLineHEnd,colorR); //draw horiz line through sustain level
      addAALine(dl,pos3,posSLineVEnd,colorR); //draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); //A
      addAALine(dl,pos2,pos3,color); //D
      addAALine(dl,pos3,posDecay2Rate0Pt,color); //Line from D to end of graph
    } else { //draw graph normally
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); //draw release as shaded triangle behind everything
      addAALine(dl,pos3,posSLineHEnd,colorR); //draw horiz line through sustain level
      addAALine(dl,pos3,posSLineVEnd,colorR); //draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); //A
      addAALine(dl,pos2,pos3,color); //D
      addAALine(dl,pos3,pos4,color); //D2
    }
    //dl->Flags^=ImDrawListFlags_AntiAliasedLines|ImDrawListFlags_AntiAliasedLinesUseTex;
  }
}

void FurnaceGUI::drawSID3Env(unsigned char tl, unsigned char ar, unsigned char dr, unsigned char d2r, unsigned char rr, unsigned char sl, unsigned char sus, unsigned char egt, unsigned char algOrGlobalSus, float maxTl, float maxArDr, float maxRr, const ImVec2& size, unsigned short instType) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE]);
  ImU32 colorR=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE_RELEASE]); // Relsease triangle
  ImU32 colorS=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE_SUS_GUIDE]); // Sustain horiz/vert line color
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("fmEnv"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);

    // Adjust for OPLL global sustain setting
    if (instType==DIV_INS_OPLL && algOrGlobalSus==1.0) {
      rr=5.0;
    }
    // calculate x positions
    float arPos=float(maxArDr-(float)ar)/maxArDr; // peak of AR, start of DR
    float drPos=arPos+(((float)sl/255.0)*(float(maxArDr-(float)dr)/maxArDr)); // end of DR, start of D2R
    float d2rPos=drPos+(((255.0-(float)sl)/255.0)*(float(255.0-(float)d2r)/255.0)); // End of D2R
    float rrPos=(float(maxRr-(float)rr)/float(maxRr)); // end of RR

    // shrink all the x positions horizontally
    arPos/=2.0;
    drPos/=2.0;
    d2rPos/=2.0;
    rrPos/=1.0;

    ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,1.0)); // the bottom corner
    ImVec2 pos2=ImLerp(rect.Min,rect.Max,ImVec2(arPos,((float)tl/maxTl))); // peak of AR, start of DR
    ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(drPos,(float)(((float)tl/maxTl)+((float)sl/255.0)-(((float)tl/maxTl)*((float)sl/255.0))))); // end of DR, start of D2R
    ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(d2rPos,1.0)); // end of D2R
    ImVec2 posRStart=ImLerp(rect.Min,rect.Max,ImVec2(0.0,((float)tl/maxTl))); // release start
    ImVec2 posREnd=ImLerp(rect.Min,rect.Max,ImVec2(rrPos,1.0));// release end
    ImVec2 posSLineHEnd=ImLerp(rect.Min,rect.Max,ImVec2(1.0,(float)(((float)tl/maxTl)+((float)sl/255.0)-(((float)tl/maxTl)*((float)sl/255.0))))); // sustain horizontal line end
    ImVec2 posSLineVEnd=ImLerp(rect.Min,rect.Max,ImVec2(drPos,1.0)); // sustain vertical line end
    ImVec2 posDecayRate0Pt=ImLerp(rect.Min,rect.Max,ImVec2(1.0,((float)tl/maxTl))); // Height of the peak of AR, forever
    ImVec2 posDecay2Rate0Pt=ImLerp(rect.Min,rect.Max,ImVec2(1.0,(float)(((float)tl/maxTl)+((float)sl/255.0)-(((float)tl/maxTl)*((float)sl/255.0))))); // Height of the peak of SR, forever

    // dl->Flags=ImDrawListFlags_AntiAliasedLines|ImDrawListFlags_AntiAliasedLinesUseTex;
    if ((float)ar==0.0) { // if AR = 0, the envelope never starts
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); // draw release as shaded triangle behind everything
      addAALine(dl,pos1,pos4,color); // draw line on ground
    } else if ((float)dr==0.0 && (float)sl!=0.0) { // if DR = 0 and SL is not 0, then the envelope stays at max volume forever
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); // draw release as shaded triangle behind everything
      // addAALine(dl,pos3,posSLineHEnd,colorS); // draw horiz line through sustain level
      // addAALine(dl,pos3,posSLineVEnd,colorS); // draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); // A
      addAALine(dl,pos2,posDecayRate0Pt,color); // Line from A to end of graph
    } else if ((float)d2r==0.0 || ((instType==DIV_INS_OPL || instType==DIV_INS_SNES || instType == DIV_INS_ESFM) && sus==1.0) || (instType==DIV_INS_OPLL && egt!=0.0)) { // envelope stays at the sustain level forever
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); // draw release as shaded triangle behind everything
      addAALine(dl,pos3,posSLineHEnd,colorR); // draw horiz line through sustain level
      addAALine(dl,pos3,posSLineVEnd,colorR); // draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); // A
      addAALine(dl,pos2,pos3,color); // D
      addAALine(dl,pos3,posDecay2Rate0Pt,color); // Line from D to end of graph
    } else { // draw graph normally
      dl->AddTriangleFilled(posRStart,posREnd,pos1,colorS); // draw release as shaded triangle behind everything
      addAALine(dl,pos3,posSLineHEnd,colorR); // draw horiz line through sustain level
      addAALine(dl,pos3,posSLineVEnd,colorR); // draw vert. line through sustain level
      addAALine(dl,pos1,pos2,color); // A
      addAALine(dl,pos2,pos3,color); // D
      addAALine(dl,pos3,pos4,color); // D2
    }
    //dl->Flags^=ImDrawListFlags_AntiAliasedLines|ImDrawListFlags_AntiAliasedLinesUseTex;
  }
}

void FurnaceGUI::drawGBEnv(unsigned char vol, unsigned char len, unsigned char sLen, bool dir, const ImVec2& size) {
  ImDrawList* dl=ImGui::GetWindowDrawList();
  ImGuiWindow* window=ImGui::GetCurrentWindow();

  ImVec2 minArea=window->DC.CursorPos;
  ImVec2 maxArea=ImVec2(
    minArea.x+size.x,
    minArea.y+size.y
  );
  ImRect rect=ImRect(minArea,maxArea);
  ImGuiStyle& style=ImGui::GetStyle();
  ImU32 color=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE]);
  //ImU32 colorS=ImGui::GetColorU32(uiColors[GUI_COLOR_FM_ENVELOPE_SUS_GUIDE]); // Sustain horiz/vert line color
  ImGui::ItemSize(size,style.FramePadding.y);
  if (ImGui::ItemAdd(rect,ImGui::GetID("gbEnv"))) {
    ImGui::RenderFrame(rect.Min,rect.Max,ImGui::GetColorU32(ImGuiCol_FrameBg),true,style.FrameRounding);
    
    float volY=1.0-((float)vol/15.0);
    float lenPos=(sLen>63)?1.0:((float)sLen/384.0);
    float envEndPoint=((float)len/7.0)*((float)(dir?(15-vol):vol)/15.0);

    ImVec2 pos1=ImLerp(rect.Min,rect.Max,ImVec2(0.0,volY));
    ImVec2 pos2;
    if (dir) {
      if (len>0) {
        if (lenPos<envEndPoint) {
          pos2=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,volY*(1.0-(lenPos/envEndPoint))));
        } else {
          pos2=ImLerp(rect.Min,rect.Max,ImVec2(envEndPoint,0.0));
        }
      } else {
        pos2=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,volY));
      }
    } else {
      if (len>0) {
        if (lenPos<envEndPoint) {
          pos2=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,volY+(1.0-volY)*(lenPos/envEndPoint)));
        } else {
          pos2=ImLerp(rect.Min,rect.Max,ImVec2(envEndPoint,1.0));
        }
      } else {
        pos2=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,volY));
      }
    }
    ImVec2 pos3=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,(len>0 || sLen<64)?((dir && sLen>62)?0.0:1.0):volY));

    addAALine(dl,pos1,pos2,color);
    if (lenPos>=envEndPoint && sLen<64 && dir) {
      pos3=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,0.0));
      addAALine(dl,pos2,pos3,color);
      ImVec2 pos4=ImLerp(rect.Min,rect.Max,ImVec2(lenPos,1.0));
      addAALine(dl,pos3,pos4,color);
    } else {
      addAALine(dl,pos2,pos3,color);
    }
  }
}

#define P(x) if (x) { \
  MARK_MODIFIED; \
  e->notifyInsChange(curIns); \
  updateFMPreview=true; \
}

#define PARAMETER MARK_MODIFIED; e->notifyInsChange(curIns); updateFMPreview=true;

String genericGuide(float value) {
  return fmt::sprintf("%d",(int)value);
}

inline int deBit30(const int val) {
  if ((val&0xc0000000)==0x40000000 || (val&0xc0000000)==0x80000000) return val^0x40000000;
  return val;
}

inline bool enBit30(const int val) {
  if ((val&0xc0000000)==0x40000000 || (val&0xc0000000)==0x80000000) return true;
  return false;
}


void FurnaceGUI::kvsConfig(DivInstrument* ins, bool supportsKVS) {
  if (fmPreviewOn) {
    if (ImGui::IsItemHovered()) {
      ImGui::SetTooltip(_("left click to restart\nmiddle click to pause\nright click to see algorithm"));
    }
    if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
      updateFMPreview=true;
    }
    if (ImGui::IsItemClicked(ImGuiMouseButton_Middle)) {
      fmPreviewPaused=!fmPreviewPaused;
    }
  } else if (supportsKVS) {
    if (ImGui::IsItemHovered()) {
      ImGui::SetTooltip(_("left click to configure TL scaling\nright click to see FM preview"));
    }
  } else {
    if (ImGui::IsItemHovered()) {
      ImGui::SetTooltip(_("right click to see FM preview"));
    }
  }
  if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
    fmPreviewOn=!fmPreviewOn;
  }
  if (ImGui::IsItemHovered() && CHECK_LONG_HOLD) {
    NOTIFY_LONG_HOLD;
    fmPreviewOn=!fmPreviewOn;
  }
  if (!fmPreviewOn && supportsKVS) {
    int opCount=4;
    if (ins->type==DIV_INS_OPLL) opCount=2;
    if (ins->type==DIV_INS_OPL) opCount=(ins->fm.ops==4)?4:2;
    if (ImGui::BeginPopupContextItem("IKVSOpt",ImGuiPopupFlags_MouseButtonLeft)) {
      ImGui::Text(_("operator level changes with volume?"));
      if (ImGui::BeginTable("KVSTable",4,ImGuiTableFlags_BordersInner)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch);
        ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch);
        for (int i=0; i<4; i++) {
          int o=(opCount==4 && ins->type!=DIV_INS_ESFM)?orderedOps[i]:i;
          if (!(i&1)) ImGui::TableNextRow();
          const char* label=_("AUTO##OPKVS");
          if (ins->fm.op[o].kvs==0) {
            label=_("NO##OPKVS");
          } else if (ins->fm.op[o].kvs==1) {
            label=_("YES##OPKVS");
          }
          ImGui::TableNextColumn();
          ImGui::Text("%d",i+1);
          ImGui::TableNextColumn();
          ImGui::PushID(o);
          if (ImGui::Button(label,ImVec2(ImGui::GetContentRegionAvail().x,0.0f))) {
            if (++ins->fm.op[o].kvs>2) ins->fm.op[o].kvs=0;
            PARAMETER;
          }
          ImGui::PopID();
        }
        ImGui::EndTable();
      }
      ImGui::EndPopup();
    }
  }
}

void FurnaceGUI::drawFMPreview(const ImVec2& size) {
  float asFloat[FM_PREVIEW_SIZE];
  for (int i=0; i<FM_PREVIEW_SIZE; i++) {
    asFloat[i]=(float)fmPreview[i]/8192.0f;
  }
  ImGui::PlotLines("##DebugFMPreview",asFloat,FM_PREVIEW_SIZE,0,NULL,-1.0,1.0,size);
}

#define MACRO_VZOOM i.ins->temp.vZoom[i.macro->macroType]
#define MACRO_VSCROLL i.ins->temp.vScroll[i.macro->macroType]

void FurnaceGUI::drawMacroEdit(FurnaceGUIMacroDesc& i, int totalFit, float availableWidth, int index) {
  static float asFloat[256];
  static int asInt[256];
  static float loopIndicator[256];
  static float bit30Indicator[256];
  static bool doHighlight[256];

  if ((i.macro->open&6)==0) {
    for (int j=0; j<256; j++) {
      bit30Indicator[j]=0;
      if (j+macroDragScroll>=i.macro->len) {
        asFloat[j]=0;
        asInt[j]=0;
      } else {
        asFloat[j]=deBit30(i.macro->val[j+macroDragScroll]);
        asInt[j]=deBit30(i.macro->val[j+macroDragScroll]);
        if (i.bit30) bit30Indicator[j]=enBit30(i.macro->val[j+macroDragScroll]);
      }
      if (j+macroDragScroll>=i.macro->len || (j+macroDragScroll>i.macro->rel && i.macro->loop<i.macro->rel)) {
        loopIndicator[j]=0;
      } else {
        loopIndicator[j]=((i.macro->loop!=255 && (j+macroDragScroll)>=i.macro->loop))|((i.macro->rel!=255 && (j+macroDragScroll)==i.macro->rel)<<1);
      }
    }
    ImGui::PushStyleVar(ImGuiStyleVar_FramePadding,ImVec2(0.0f,0.0f));
    if (MACRO_VZOOM<1) {
      if (i.macro->macroType==DIV_MACRO_ARP || i.isArp) {
        MACRO_VZOOM=24;
        MACRO_VSCROLL=120-12;
      }
      else if ((i.macro->macroType == DIV_MACRO_PITCH || i.isPitch) || (i.macro->macroType == DIV_MACRO_EX7 && i.isPitch)) {
        MACRO_VZOOM=128;
        MACRO_VSCROLL=2048-64;
      } else {
        MACRO_VZOOM=i.max-i.min;
        MACRO_VSCROLL=0;
      }
    }
    if (MACRO_VZOOM>(i.max-i.min)) {
      MACRO_VZOOM=i.max-i.min;
    }

    memset(doHighlight,0,256*sizeof(bool));
    if (e->isRunning()) for (int j=0; j<e->getTotalChannelCount(); j++) {
      DivChannelState* chanState=e->getChanState(j);
      if (chanState==NULL) continue;

      if (chanState->keyOff) continue;
      if (chanState->lastIns!=curIns) continue;

      DivMacroInt* macroInt=e->getMacroInt(j);
      if (macroInt==NULL) continue;

      DivMacroStruct* macroStruct=macroInt->structByType(i.macro->macroType);
      if (macroStruct==NULL) continue;

      if (macroStruct->lastPos>i.macro->len) continue;
      if (macroStruct->lastPos<macroDragScroll) continue;
      if (macroStruct->lastPos>255) continue;
      if (!macroStruct->actualHad) continue;

      doHighlight[macroStruct->lastPos-macroDragScroll]=true;
    }

    if (i.isBitfield) {
      PlotBitfield("##IMacro",asInt,totalFit,0,i.bitfieldBits,i.max,ImVec2(availableWidth,(i.macro->open&1)?(i.height*dpiScale):(32.0f*dpiScale)),sizeof(float),doHighlight,uiColors[GUI_COLOR_MACRO_HIGHLIGHT],i.color,i.hoverFunc,i.hoverFuncUser);
    } else {
      PlotCustom("##IMacro",asFloat,totalFit,macroDragScroll,NULL,i.min+MACRO_VSCROLL,i.min+MACRO_VSCROLL+MACRO_VZOOM,ImVec2(availableWidth,(i.macro->open&1)?(i.height*dpiScale):(32.0f*dpiScale)),sizeof(float),i.color,i.macro->len-macroDragScroll,i.hoverFunc,i.hoverFuncUser,i.blockMode,(i.macro->open&1)?genericGuide:NULL,doHighlight,uiColors[GUI_COLOR_MACRO_HIGHLIGHT]);
    }
    if ((i.macro->open&1) && (ImGui::IsItemClicked(ImGuiMouseButton_Left) || ImGui::IsItemClicked(ImGuiMouseButton_Right))) {
      ImGui::InhibitInertialScroll();
      macroDragStart=ImGui::GetItemRectMin();
      macroDragAreaSize=ImVec2(availableWidth,i.height*dpiScale);
      if (i.isBitfield) {
        macroDragMin=i.min;
        macroDragMax=i.max;
      } else {
        macroDragMin=i.min+MACRO_VSCROLL;
        macroDragMax=i.min+MACRO_VSCROLL+MACRO_VZOOM;
      }
      macroDragBitMode=i.isBitfield;
      macroDragInitialValueSet=false;
      macroDragInitialValue=false;
      macroDragLen=totalFit;
      macroDragActive=true;
      macroDragBit30=i.bit30;
      macroDragSettingBit30=false;
      macroDragTarget=i.macro->val;
      macroDragChar=false;
      macroDragLineMode=(i.isBitfield)?false:ImGui::IsItemClicked(ImGuiMouseButton_Right);
      macroDragLineInitial=ImVec2(0,0);
      lastMacroDesc=i;
      processDrags(ImGui::GetMousePos().x,ImGui::GetMousePos().y);
    }
    if ((i.macro->open&1)) {
      if (ImGui::IsItemHovered()) {
        if (ctrlWheeling) {
          if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) {
            MACRO_VZOOM+=wheelY*(1+(MACRO_VZOOM>>4));
            if (MACRO_VZOOM<1) MACRO_VZOOM=1;
            if (MACRO_VZOOM>(i.max-i.min)) MACRO_VZOOM=i.max-i.min;
            if ((MACRO_VSCROLL+MACRO_VZOOM)>(i.max-i.min)) {
              MACRO_VSCROLL=(i.max-i.min)-MACRO_VZOOM;
            }
          } else if (settings.autoMacroStepSize==0) {
            macroPointSize+=wheelY;
            if (macroPointSize<1) macroPointSize=1;
            if (macroPointSize>256) macroPointSize=256;
          }
        } else if ((ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) && wheelY!=0) {
          MACRO_VSCROLL+=wheelY*(1+(MACRO_VZOOM>>4));
          if (MACRO_VSCROLL<0) MACRO_VSCROLL=0;
          if (MACRO_VSCROLL>((i.max-i.min)-MACRO_VZOOM)) MACRO_VSCROLL=(i.max-i.min)-MACRO_VZOOM;
        }
      }

      // slider
      if (!i.isBitfield) {
        if (settings.oldMacroVSlider) {
          ImGui::SameLine(0.0f);
          if (ImGui::VSliderInt("##IMacroVScroll",ImVec2(20.0f*dpiScale,i.height*dpiScale),&MACRO_VSCROLL,0,(i.max-i.min)-MACRO_VZOOM,"",ImGuiSliderFlags_NoInput)) {
            if (MACRO_VSCROLL<0) MACRO_VSCROLL=0;
            if (MACRO_VSCROLL>((i.max-i.min)-MACRO_VZOOM)) MACRO_VSCROLL=(i.max-i.min)-MACRO_VZOOM;
          }
          if (ImGui::IsItemHovered() && ctrlWheeling) {
            MACRO_VSCROLL+=wheelY*(1+(MACRO_VZOOM>>4));
            if (MACRO_VSCROLL<0) MACRO_VSCROLL=0;
            if (MACRO_VSCROLL>((i.max-i.min)-MACRO_VZOOM)) MACRO_VSCROLL=(i.max-i.min)-MACRO_VZOOM;
          }
        } else {
          ImS64 scrollV=(i.max-i.min-MACRO_VZOOM)-MACRO_VSCROLL;
          ImS64 availV=MACRO_VZOOM;
          ImS64 contentsV=(i.max-i.min);

          ImGui::SameLine(0.0f);
          ImGui::SetCursorPosX(ImGui::GetCursorPosX()-ImGui::GetStyle().ItemSpacing.x);
          ImRect scrollbarPos=ImRect(ImGui::GetCursorScreenPos(),ImGui::GetCursorScreenPos());
          scrollbarPos.Max.x+=ImGui::GetStyle().ScrollbarSize;
          scrollbarPos.Max.y+=i.height*dpiScale;
          ImGui::Dummy(ImVec2(ImGui::GetStyle().ScrollbarSize,i.height*dpiScale));
          if (ImGui::IsItemHovered() && ctrlWheeling) {
            MACRO_VSCROLL+=wheelY*(1+(MACRO_VZOOM>>4));
            if (MACRO_VSCROLL<0) MACRO_VSCROLL=0;
            if (MACRO_VSCROLL>((i.max-i.min)-MACRO_VZOOM)) MACRO_VSCROLL=(i.max-i.min)-MACRO_VZOOM;
          }

          ImGuiID scrollbarID=ImGui::GetID("##IMacroVScroll");
          ImGui::KeepAliveID(scrollbarID);
          if (ImGui::ScrollbarEx(scrollbarPos,scrollbarID,ImGuiAxis_Y,&scrollV,availV,contentsV,0)) {
            MACRO_VSCROLL=(i.max-i.min-MACRO_VZOOM)-scrollV;
          }
        }
      }

      // bit 30 area
      if (i.bit30) {
        PlotCustom("##IMacroBit30",bit30Indicator,totalFit,macroDragScroll,NULL,0,1,ImVec2(availableWidth,12.0f*dpiScale),sizeof(float),i.color,i.macro->len-macroDragScroll,&macroHoverBit30);
        if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
          ImGui::InhibitInertialScroll();
          macroDragStart=ImGui::GetItemRectMin();
          macroDragAreaSize=ImVec2(availableWidth,12.0f*dpiScale);
          macroDragInitialValueSet=false;
          macroDragInitialValue=false;
          macroDragLen=totalFit;
          macroDragActive=true;
          macroDragBit30=i.bit30;
          macroDragSettingBit30=true;
          macroDragTarget=i.macro->val;
          macroDragChar=false;
          macroDragLineMode=false;
          macroDragLineInitial=ImVec2(0,0);
          lastMacroDesc=i;
          processDrags(ImGui::GetMousePos().x,ImGui::GetMousePos().y);
        }
      }

      // loop area
      PlotCustom("##IMacroLoop",loopIndicator,totalFit,macroDragScroll,NULL,0,2,ImVec2(availableWidth,12.0f*dpiScale),sizeof(float),i.color,i.macro->len-macroDragScroll,&macroHoverLoop);
      if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
        ImGui::InhibitInertialScroll();
        macroLoopDragStart=ImGui::GetItemRectMin();
        macroLoopDragAreaSize=ImVec2(availableWidth,12.0f*dpiScale);
        macroLoopDragLen=totalFit;
        if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) {
          macroLoopDragTarget=&i.macro->rel;
        } else {
          macroLoopDragTarget=&i.macro->loop;
        }
        macroLoopDragActive=true;
        processDrags(ImGui::GetMousePos().x,ImGui::GetMousePos().y);
      }
      if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
        ImGui::InhibitInertialScroll();
        if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) {
          i.macro->rel=255;
        } else {
          i.macro->loop=255;
        }
      }
      ImGui::SetNextItemWidth(availableWidth);
      String& mmlStr=mmlString[index];
      if (ImGui::InputText("##IMacroMML",&mmlStr)) {
        decodeMMLStr(mmlStr,i.macro->val,i.macro->len,i.macro->loop,i.min,(i.isBitfield)?((1<<(i.isBitfield?(i.max):0))-1):i.max,i.macro->rel,i.bit30);
      }
      if (!ImGui::IsItemActive()) {
        encodeMMLStr(mmlStr,i.macro->val,i.macro->len,i.macro->loop,i.macro->rel,false,i.bit30);
      }
    }
    ImGui::PopStyleVar();
  } else {
    if (i.macro->open&2) {
      const bool compact=(availableWidth<300.0f*dpiScale);
      if (ImGui::BeginTable("MacroADSR",compact?2:4)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.3);
        if (!compact) {
          ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.3);
        }
        //ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthStretch,0.4);

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Bottom"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (ImGui::InputInt("##MABottom",&i.macro->val[0],1,16)) { PARAMETER
          if (i.macro->val[0]<i.min) i.macro->val[0]=i.min;
          if (i.macro->val[0]>i.max) i.macro->val[0]=i.max;
        }

        if (compact) ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Top"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (ImGui::InputInt("##MATop",&i.macro->val[1],1,16)) { PARAMETER
          if (i.macro->val[1]<i.min) i.macro->val[1]=i.min;
          if (i.macro->val[1]>i.max) i.macro->val[1]=i.max;
        }

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Attack"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (CWSliderInt("##MAAR",&i.macro->val[2],0,255)) { PARAMETER
          if (i.macro->val[2]<0) i.macro->val[2]=0;
          if (i.macro->val[2]>255) i.macro->val[2]=255;
        } rightClickable

        if (compact) {
          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Hold"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MAHT",&i.macro->val[3],0,255)) { PARAMETER
            if (i.macro->val[3]<0) i.macro->val[3]=0;
            if (i.macro->val[3]>255) i.macro->val[3]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Decay"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MADR",&i.macro->val[4],0,255)) { PARAMETER
            if (i.macro->val[4]<0) i.macro->val[4]=0;
            if (i.macro->val[4]>255) i.macro->val[4]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Sustain"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MASL",&i.macro->val[5],0,255)) { PARAMETER
            if (i.macro->val[5]<0) i.macro->val[5]=0;
            if (i.macro->val[5]>255) i.macro->val[5]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("SusTime"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MAST",&i.macro->val[6],0,255)) { PARAMETER
            if (i.macro->val[6]<0) i.macro->val[6]=0;
            if (i.macro->val[6]>255) i.macro->val[6]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("SusDecay"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MASR",&i.macro->val[7],0,255)) { PARAMETER
            if (i.macro->val[7]<0) i.macro->val[7]=0;
            if (i.macro->val[7]>255) i.macro->val[7]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Release"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MARR",&i.macro->val[8],0,255)) { PARAMETER
            if (i.macro->val[8]<0) i.macro->val[8]=0;
            if (i.macro->val[8]>255) i.macro->val[8]=255;
          } rightClickable
        } else {
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Sustain"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MASL",&i.macro->val[5],0,255)) { PARAMETER
            if (i.macro->val[5]<0) i.macro->val[5]=0;
            if (i.macro->val[5]>255) i.macro->val[5]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Hold"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MAHT",&i.macro->val[3],0,255)) { PARAMETER
            if (i.macro->val[3]<0) i.macro->val[3]=0;
            if (i.macro->val[3]>255) i.macro->val[3]=255;
          } rightClickable

          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("SusTime"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MAST",&i.macro->val[6],0,255)) { PARAMETER
            if (i.macro->val[6]<0) i.macro->val[6]=0;
            if (i.macro->val[6]>255) i.macro->val[6]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Decay"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MADR",&i.macro->val[4],0,255)) { PARAMETER
            if (i.macro->val[4]<0) i.macro->val[4]=0;
            if (i.macro->val[4]>255) i.macro->val[4]=255;
          } rightClickable

          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("SusDecay"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MASR",&i.macro->val[7],0,255)) { PARAMETER
            if (i.macro->val[7]<0) i.macro->val[7]=0;
            if (i.macro->val[7]>255) i.macro->val[7]=255;
          } rightClickable

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::TableNextColumn();
          
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Release"));
          ImGui::TableNextColumn();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (CWSliderInt("##MARR",&i.macro->val[8],0,255)) { PARAMETER
            if (i.macro->val[8]<0) i.macro->val[8]=0;
            if (i.macro->val[8]>255) i.macro->val[8]=255;
          } rightClickable
        }

        ImGui::EndTable();
      }
    }
    if (i.macro->open&4) {
      const bool compact=(availableWidth<300.0f*dpiScale);
      if (ImGui::BeginTable("MacroLFO",compact?2:4)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.3);
        if (!compact) {
          ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.3);
        }

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Bottom"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (ImGui::InputInt("##MABottom",&i.macro->val[0],1,16)) { PARAMETER
          if (i.macro->val[0]<i.min) i.macro->val[0]=i.min;
          if (i.macro->val[0]>i.max) i.macro->val[0]=i.max;
        }

        if (compact) ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Top"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (ImGui::InputInt("##MATop",&i.macro->val[1],1,16)) { PARAMETER
          if (i.macro->val[1]<i.min) i.macro->val[1]=i.min;
          if (i.macro->val[1]>i.max) i.macro->val[1]=i.max;
        }

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Speed"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (CWSliderInt("##MLSpeed",&i.macro->val[11],0,255)) { PARAMETER
          if (i.macro->val[11]<0) i.macro->val[11]=0;
          if (i.macro->val[11]>255) i.macro->val[11]=255;
        } rightClickable

        if (compact) ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Phase"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (CWSliderInt("##MLPhase",&i.macro->val[13],0,1023)) { PARAMETER
          if (i.macro->val[13]<0) i.macro->val[13]=0;
          if (i.macro->val[13]>1023) i.macro->val[13]=1023;
        } rightClickable

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Shape"));
        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (CWSliderInt("##MLShape",&i.macro->val[12],0,2,macroLFOShapes[i.macro->val[12]&3])) { PARAMETER
          if (i.macro->val[12]<0) i.macro->val[12]=0;
          if (i.macro->val[12]>2) i.macro->val[12]=2;
        } rightClickable

        ImGui::EndTable();
      }
    }
  }
}

#define BUTTON_TO_SET_MODE(buttonType) \
  if (buttonType(macroTypeLabels[(i.macro->open>>1)&3])) { \
    unsigned char prevOpen=i.macro->open; \
    if (i.macro->open>=4) { \
      i.macro->open&=(~6); \
    } else { \
      i.macro->open+=2; \
    } \
\
    /* check whether macro type is now ADSR/LFO or sequence */ \
    if (((prevOpen&6)?1:0)!=((i.macro->open&6)?1:0)) { \
      /* swap memory */ \
      /* this way the macro isn't corrupted if the user decides to go */ \
      /* back to sequence mode */ \
      i.macro->len^=i.ins->temp.lenMemory[i.macro->macroType]; \
      i.ins->temp.lenMemory[i.macro->macroType]^=i.macro->len; \
      i.macro->len^=i.ins->temp.lenMemory[i.macro->macroType]; \
\
      for (int j=0; j<16; j++) { \
        i.macro->val[j]^=i.ins->temp.typeMemory[i.macro->macroType][j]; \
        i.ins->temp.typeMemory[i.macro->macroType][j]^=i.macro->val[j]; \
        i.macro->val[j]^=i.ins->temp.typeMemory[i.macro->macroType][j]; \
      } \
\
      /* if ADSR/LFO, populate min/max */ \
      if (i.macro->open&6) { \
        if (i.macro->val[0]==0 && i.macro->val[1]==0) { \
          i.macro->val[0]=i.min; \
          i.macro->val[1]=i.max; \
        } \
        i.macro->val[0]=CLAMP(i.macro->val[0],i.min,i.max); \
        i.macro->val[1]=CLAMP(i.macro->val[1],i.min,i.max); \
      } \
    } \
    PARAMETER; \
  } \
  if (ImGui::IsItemHovered()) { \
    switch (i.macro->open&6) { \
      case 0: \
        ImGui::SetTooltip(_("Macro type: Sequence")); \
        break; \
      case 2: \
        ImGui::SetTooltip(_("Macro type: ADSR")); \
        break; \
      case 4: \
        ImGui::SetTooltip(_("Macro type: LFO")); \
        break; \
      default: \
        ImGui::SetTooltip(_("Macro type: What's going on here?")); \
        break; \
    } \
  } \
  if (i.macro->open&6) { \
    i.macro->len=16; \
  }

#define BUTTON_TO_SET_PROPS(_x) \
  pushToggleColors(_x.macro->speed!=1 || _x.macro->delay); \
  ImGui::Button(ICON_FA_ELLIPSIS_H "##IMacroSet"); \
  popToggleColors(); \
  if (ImGui::IsItemHovered()) { \
    ImGui::SetTooltip(_("Delay/Step Length")); \
  } \
  if (ImGui::BeginPopupContextItem("IMacroSetP",ImGuiPopupFlags_MouseButtonLeft)) { \
    if (ImGui::InputScalar(_("Step Length (ticks)##IMacroSpeed"),ImGuiDataType_U8,&_x.macro->speed,&_ONE,&_THREE)) { \
      if (_x.macro->speed<1) _x.macro->speed=1; \
      MARK_MODIFIED; \
    } \
    if (ImGui::InputScalar(_("Delay##IMacroDelay"),ImGuiDataType_U8,&_x.macro->delay,&_ONE,&_THREE)) { \
      MARK_MODIFIED; \
    } \
    ImGui::EndPopup(); \
  }

#define BUTTON_TO_SET_RELEASE(buttonType) \
  pushToggleColors(i.macro->open&8); \
  if (buttonType(ICON_FA_BOLT "##IMacroRelMode")) { \
    i.macro->open^=8; \
  } \
  if (ImGui::IsItemHovered()) { \
    if (i.macro->open&8) { \
      ImGui::SetTooltip(_("Release mode: Active (jump to release pos)")); \
    } else { \
      ImGui::SetTooltip(_("Release mode: Passive (delayed release)")); \
    } \
  } \
  popToggleColors(); \

#define BUTTON_FOR_MACRO_MENU(buttonType) \
  if (mobileUI) { \
    if (buttonType(ICON_FA_PAGELINES "##IMacroMenu")) { \
      lastMacroDesc=i; \
      displayMacroMenu=true; \
    } \
  }

void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros, FurnaceGUIMacroEditState& state, DivInstrument* ins) {
  int index=0;
  int maxMacroLen=0;
  float reservedSpace=(settings.oldMacroVSlider)?(20.0f*dpiScale+ImGui::GetStyle().ItemSpacing.x):ImGui::GetStyle().ScrollbarSize;

  for (FurnaceGUIMacroDesc& m: macros) {
    m.ins=ins;
    if (m.macro->len>maxMacroLen) maxMacroLen=m.macro->len;
  }

  switch (settings.macroLayout) {
    case 0: {
      if (ImGui::BeginTable("MacroSpace",2)) {
        float precalcWidth=0.0f;
        for (FurnaceGUIMacroDesc& i: macros) {
          float next=ImGui::CalcTextSize(i.displayName).x+ImGui::GetStyle().ItemInnerSpacing.x*2.0f+ImGui::CalcTextSize(ICON_FA_CHEVRON_UP).x+ImGui::GetStyle().ItemSpacing.x*2.0f;
          if (next>precalcWidth) precalcWidth=next;
        }
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,MAX(120.0f*dpiScale,precalcWidth));
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0);
        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        float lenAvail=ImGui::GetContentRegionAvail().x;
        //ImGui::Dummy(ImVec2(120.0f*dpiScale,dpiScale));
        if (settings.autoMacroStepSize==0) {
          ImGui::SetNextItemWidth(120.0f*dpiScale);
          if (ImGui::InputInt("##MacroPointSize",&macroPointSize,1,4)) {
            if (macroPointSize<1) macroPointSize=1;
            if (macroPointSize>256) macroPointSize=256;
          }
        }
        ImGui::TableNextColumn();
        float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace;
        int totalFit=MIN(255,availableWidth/MAX(1,macroPointSize*dpiScale));
        int scrollMax=0;
        if (settings.autoMacroStepSize!=0) totalFit=1;
        for (FurnaceGUIMacroDesc& i: macros) {
          if (i.macro->len>scrollMax) scrollMax=i.macro->len;
          if (settings.autoMacroStepSize==1) {
            if ((i.macro->open&6)==0 && totalFit<i.macro->len) totalFit=i.macro->len;
          } else if (settings.autoMacroStepSize==2) {
            if ((i.macro->open&6)==0 && totalFit<maxMacroLen) totalFit=maxMacroLen;
          }
        }
        scrollMax-=totalFit;
        if (scrollMax<0) scrollMax=0;
        if (macroDragScroll>scrollMax) {
          macroDragScroll=scrollMax;
        }
        ImGui::BeginDisabled(scrollMax<1);
        ImGui::SetNextItemWidth(availableWidth);
        if (CWSliderInt("##MacroScrollTop",&macroDragScroll,0,scrollMax,"")) {
          if (macroDragScroll<0) macroDragScroll=0;
          if (macroDragScroll>scrollMax) macroDragScroll=scrollMax;
        }
        ImGui::EndDisabled();

        // draw macros
        for (FurnaceGUIMacroDesc& i: macros) {
          ImGui::PushID(index);
          ImGui::TableNextRow();

          // description
          ImGui::TableNextColumn();
          ImGui::Text("%s",i.displayName);
          ImGui::SameLine();
          if (ImGui::SmallButton((i.macro->open&1)?(ICON_FA_CHEVRON_UP "##IMacroOpen"):(ICON_FA_CHEVRON_DOWN "##IMacroOpen"))) {
            i.macro->open^=1;
          }
          if (i.macro->open&1) {
            if ((i.macro->open&6)==0) {
              ImGui::SetNextItemWidth(lenAvail);
              int macroLen=i.macro->len;
              if (ImGui::InputScalar("##IMacroLen",ImGuiDataType_U8,&macroLen,&_ONE,&_THREE)) { MARK_MODIFIED
                if (macroLen<0) macroLen=0;
                if (macroLen>255) macroLen=255;
                i.macro->len=macroLen;
              }
            }
            BUTTON_TO_SET_MODE(ImGui::Button);
            ImGui::SameLine();
            BUTTON_TO_SET_PROPS(i);
            if ((i.macro->open&6)==0) {
              ImGui::SameLine();
              BUTTON_TO_SET_RELEASE(ImGui::Button);
            }
            BUTTON_FOR_MACRO_MENU(ImGui::Button);
            // do not change this!
            // anything other than a checkbox will look ugly!
            // if you really need more than two macro modes please tell me.
            if (i.modeName!=NULL) {
              bool modeVal=i.macro->mode;
              String modeName=fmt::sprintf("%s##IMacroMode",i.modeName);
              if (ImGui::Checkbox(modeName.c_str(),&modeVal)) {
                i.macro->mode=modeVal;
              }
            }
          }

          // macro area
          ImGui::TableNextColumn();
          drawMacroEdit(i,totalFit,availableWidth,index);
          ImGui::PopID();
          index++;
        }

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::TableNextColumn();
        ImGui::BeginDisabled(scrollMax<1);
        ImGui::SetNextItemWidth(availableWidth);
        if (CWSliderInt("##MacroScrollBottom",&macroDragScroll,0,scrollMax,"")) {
          if (macroDragScroll<0) macroDragScroll=0;
          if (macroDragScroll>scrollMax) macroDragScroll=scrollMax;
        }
        ImGui::EndDisabled();
        ImGui::EndTable();
      }
      break;
    }
    case 1: {
      ImGui::Text("Tabs");
      break;
    }
    case 2: {
      int columns=round(ImGui::GetContentRegionAvail().x/(400.0*dpiScale));
      int curColumn=0;
      if (columns<1) columns=1;
      if (ImGui::BeginTable("MacroGrid",columns,ImGuiTableFlags_BordersInner)) {
        for (FurnaceGUIMacroDesc& i: macros) {
          if (curColumn==0) ImGui::TableNextRow();
          ImGui::TableNextColumn();

          if (++curColumn>=columns) curColumn=0;
          
          float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace;
          int totalFit=i.macro->len;
          if (totalFit<1) totalFit=1;

          ImGui::PushID(index);

          ImGui::TextUnformatted(i.displayName);
          ImGui::SameLine();
          if (ImGui::SmallButton((i.macro->open&1)?(ICON_FA_CHEVRON_UP "##IMacroOpen"):(ICON_FA_CHEVRON_DOWN "##IMacroOpen"))) {
            i.macro->open^=1;
          }

          if (i.macro->open&1) {
            ImGui::SameLine();
            BUTTON_TO_SET_MODE(ImGui::SmallButton);
          }

          drawMacroEdit(i,totalFit,availableWidth,index);

          if (i.macro->open&1) {
            if ((i.macro->open&6)==0) {
              ImGui::Text(_("Length"));
              ImGui::SameLine();
              ImGui::SetNextItemWidth(120.0f*dpiScale);
              int macroLen=i.macro->len;
              if (ImGui::InputScalar("##IMacroLen",ImGuiDataType_U8,&macroLen,&_ONE,&_THREE)) { MARK_MODIFIED
                if (macroLen<0) macroLen=0;
                if (macroLen>255) macroLen=255;
                i.macro->len=macroLen;
              }
              ImGui::SameLine();
            }
            BUTTON_TO_SET_PROPS(i);
            if ((i.macro->open&6)==0) {
              ImGui::SameLine();
              BUTTON_TO_SET_RELEASE(ImGui::Button);
            }
            BUTTON_FOR_MACRO_MENU(ImGui::Button);
            if (i.modeName!=NULL) {
              bool modeVal=i.macro->mode;
              String modeName=fmt::sprintf("%s##IMacroMode",i.modeName);
              ImGui::SameLine();
              if (ImGui::Checkbox(modeName.c_str(),&modeVal)) {
                i.macro->mode=modeVal;
              }
            }
          }

          ImGui::PopID();
          index++;
        }
        ImGui::EndTable();
      }
      break;
    }
    case 3: {
      if (ImGui::BeginTable("MacroList",2,ImGuiTableFlags_Borders)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.2f);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.8f);

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        for (size_t i=0; i<macros.size(); i++) {
          // include macro len if non-zero, making particularly clear at-a-glance which macros
          // have non-zero len (i.e. are active). and calculate how big we need to be to leave some
          // extra space so the column doesn't change size when len is changed under typical
          // circumstances (really don't want to move buttons while mouse is being clicked or held).
          char buf[256];

          if (macros[i].macro->len>0) {
            snprintf(buf,255,"%s [%d]###%s_%d",macros[i].displayName,macros[i].macro->len,macros[i].displayName,(int)i);
          } else {
            snprintf(buf,255,"%s###%s_%d",macros[i].displayName,macros[i].displayName,(int)i);
          }

          if (ImGui::Selectable(buf,state.selectedMacro==(int)i)) {
            state.selectedMacro=i;
          }
        }

        ImGui::TableNextColumn();
        float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace;
        int totalFit=MIN(255,availableWidth/MAX(1,macroPointSize*dpiScale));
        if (macroDragScroll>255-totalFit) {
          macroDragScroll=255-totalFit;
        }

        if (state.selectedMacro<0 || state.selectedMacro>=(int)macros.size()) {
          state.selectedMacro=0;
        }

        if (state.selectedMacro>=0 && state.selectedMacro<(int)macros.size()) {
          FurnaceGUIMacroDesc& m=macros[state.selectedMacro];
          m.macro->open|=1;

          float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace;
          int totalFit=MIN(255,availableWidth/MAX(1,macroPointSize*dpiScale));
          int scrollMax=0;
          for (FurnaceGUIMacroDesc& i: macros) {
            if (i.macro->len>scrollMax) scrollMax=i.macro->len;
          }
          if (settings.autoMacroStepSize==1) totalFit=MAX(1,m.macro->len);
          else if (settings.autoMacroStepSize==2) totalFit=MAX(1,maxMacroLen);
          scrollMax-=totalFit;
          if (scrollMax<0) scrollMax=0;
          if (macroDragScroll>scrollMax) {
            macroDragScroll=scrollMax;
          }
          ImGui::BeginDisabled(scrollMax<1);
          ImGui::SetNextItemWidth(availableWidth);
          if (CWSliderInt("##MacroScroll",&macroDragScroll,0,scrollMax,"")) {
            if (macroDragScroll<0) macroDragScroll=0;
            if (macroDragScroll>scrollMax) macroDragScroll=scrollMax;
          }
          ImGui::EndDisabled();

          if (settings.autoMacroStepSize==0) {
            ImGui::SameLine();
            ImGui::Button(ICON_FA_SEARCH_PLUS "##MacroZoomB");
            if (ImGui::BeginPopupContextItem("MacroZoomP",ImGuiPopupFlags_MouseButtonLeft)) {
              ImGui::SetNextItemWidth(120.0f*dpiScale);
              if (ImGui::InputInt("##MacroPointSize",&macroPointSize,1,4)) {
                if (macroPointSize<1) macroPointSize=1;
                if (macroPointSize>256) macroPointSize=256;
              }
              ImGui::EndPopup();
            }
          }

          m.height=ImGui::GetContentRegionAvail().y-ImGui::GetFontSize()-ImGui::GetFrameHeightWithSpacing()-(m.bit30?28.0f:12.0f)*dpiScale-ImGui::GetStyle().ItemSpacing.y*3.0f;
          if (m.height<10.0f*dpiScale) m.height=10.0f*dpiScale;
          m.height/=dpiScale;
          drawMacroEdit(m,totalFit,availableWidth,index);

          if (m.macro->open&1) {
            bool showLen=((m.macro->open&6)==0);
            int colCount=showLen ? 4 : 3;
            float availX=ImGui::GetContentRegionAvail().x;

            // fairly arbitrary scaling logic
            bool shortLabels=(availX<600.0f*dpiScale);
            float scalarItemWidth=MIN((availX-90.0f*dpiScale)/colCount, 120.0f*dpiScale);
            if (ImGui::BeginTable("##MacroMetaData",colCount)) {
              if (showLen) ImGui::TableSetupColumn("len",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableSetupColumn("stepLen",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableSetupColumn("delay",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableSetupColumn("buttons",ImGuiTableColumnFlags_WidthFixed,0.0);

              ImGui::TableNextRow();
              if (showLen) {
                ImGui::TableNextColumn();
                ImGui::AlignTextToFramePadding();
                ImGui::Text(shortLabels ? _("Len##macroEditLengthShortLabel") : _("Length"));
                if (shortLabels && ImGui::IsItemHovered()) ImGui::SetTooltip("%s", _("Length"));
                ImGui::SameLine();
                ImGui::SetNextItemWidth(scalarItemWidth);
                int macroLen=m.macro->len;
                if (ImGui::InputScalar("##IMacroLen",ImGuiDataType_U8,&macroLen,&_ONE,&_THREE)) { MARK_MODIFIED
                  if (macroLen<0) macroLen=0;
                  if (macroLen>255) macroLen=255;
                  m.macro->len=macroLen;
                }
              }
              ImGui::TableNextColumn();
              ImGui::AlignTextToFramePadding();
              ImGui::Text(shortLabels ? _("SLen##macroEditStepLenShortLabel") : _("StepLen"));
              if (shortLabels && ImGui::IsItemHovered()) ImGui::SetTooltip("%s", _("StepLen"));
              ImGui::SameLine();
              ImGui::SetNextItemWidth(scalarItemWidth);
              if (ImGui::InputScalar("##IMacroSpeed",ImGuiDataType_U8,&m.macro->speed,&_ONE,&_THREE)) {
                if (m.macro->speed<1) m.macro->speed=1;
                MARK_MODIFIED;
              }
              ImGui::TableNextColumn();
              ImGui::AlignTextToFramePadding();
              ImGui::Text(shortLabels ? _("Del##macroEditDelayShortLabel") : _("Delay"));
              if (shortLabels && ImGui::IsItemHovered()) ImGui::SetTooltip("%s", _("Delay"));
              ImGui::SameLine();
              ImGui::SetNextItemWidth(scalarItemWidth);
              if (ImGui::InputScalar("##IMacroDelay",ImGuiDataType_U8,&m.macro->delay,&_ONE,&_THREE)) {
                MARK_MODIFIED;
              }
              ImGui::TableNextColumn();
              {
                FurnaceGUIMacroDesc& i=m;
                BUTTON_TO_SET_MODE(ImGui::Button);
                if ((i.macro->open&6)==0) {
                  ImGui::SameLine();
                  BUTTON_TO_SET_RELEASE(ImGui::Button);
                }
                BUTTON_FOR_MACRO_MENU(ImGui::Button);
              }
              if (m.modeName!=NULL) {
                bool modeVal=m.macro->mode;
                String modeName=fmt::sprintf("%s##IMacroMode",m.modeName);
                ImGui::SameLine();
                if (ImGui::Checkbox(modeName.c_str(),&modeVal)) {
                  m.macro->mode=modeVal;
                }
              }
              ImGui::EndTable();
            }
          } else {
            ImGui::Text(_("The heck? No, this isn't even working correctly..."));
          }
        } else {
          ImGui::Text(_("The only problem with that selectedMacro is that it's a bug..."));
        }

        // goes here
        ImGui::EndTable();
      }
      break;
    }
    case 4: {
      ImGui::Text("Single (combo box)");
      break;
    }
  }
}

void FurnaceGUI::alterSampleMap(int column, int val) {
  if (curIns<0 || curIns>=(int)e->song.ins.size()) return;
  DivInstrument* ins=e->song.ins[curIns];
  int sampleMapMin=sampleMapSelStart;
  int sampleMapMax=sampleMapSelEnd;
  if (sampleMapMin>sampleMapMax) {
    sampleMapMin^=sampleMapMax;
    sampleMapMax^=sampleMapMin;
    sampleMapMin^=sampleMapMax;
  }

  for (int i=sampleMapMin; i<=sampleMapMax; i++) {
    if (i<0 || i>=120) continue;

    if (sampleMapColumn==1 && column==1) {
      ins->amiga.noteMap[i].freq=val;
    } else if (sampleMapColumn==0 && column==0) {
      if (val<0) {
        ins->amiga.noteMap[i].map=-1;
      } else if (sampleMapDigit>0) {
        ins->amiga.noteMap[i].map*=10;
        ins->amiga.noteMap[i].map+=val;
      } else {
        ins->amiga.noteMap[i].map=val;
      }
      if (ins->amiga.noteMap[i].map>=(int)e->song.sample.size()) {
        ins->amiga.noteMap[i].map=((int)e->song.sample.size())-1;
      }
    } else if (sampleMapColumn==2 && column==2) {
      if (val<0) {
        ins->amiga.noteMap[i].dpcmFreq=-1;
      } else if (sampleMapDigit>0) {
        ins->amiga.noteMap[i].dpcmFreq*=10;
        ins->amiga.noteMap[i].dpcmFreq+=val;
      } else {
        ins->amiga.noteMap[i].dpcmFreq=val;
      }
      if (ins->amiga.noteMap[i].dpcmFreq>15) {
        ins->amiga.noteMap[i].dpcmFreq%=10;
      }
    } else if (sampleMapColumn==3 && column==3) {
      if (val<0) {
        ins->amiga.noteMap[i].dpcmDelta=-1;
      } else if (sampleMapDigit>0) {
        if (ins->amiga.noteMap[i].dpcmDelta>7) {

          ins->amiga.noteMap[i].dpcmDelta=val;
        } else {
          ins->amiga.noteMap[i].dpcmDelta<<=4;
          ins->amiga.noteMap[i].dpcmDelta+=val;
        }
      } else {
        ins->amiga.noteMap[i].dpcmDelta=val;
      }
    }
  }

  bool advance=false;
  if (sampleMapColumn==1 && column==1) {
    advance=true;
  } else if (sampleMapColumn==0 && column==0) {
    int digits=1;
    if (e->song.sample.size()>=10) digits=2;
    if (e->song.sample.size()>=100) digits=3;
    if (++sampleMapDigit>=digits) {
      sampleMapDigit=0;
      advance=true;
    }
  } else if (sampleMapColumn==2 && column==2) {
    if (++sampleMapDigit>=2) {
      sampleMapDigit=0;
      advance=true;
    }
  } else if (sampleMapColumn==3 && column==3) {
    if (++sampleMapDigit>=2) {
      sampleMapDigit=0;
      advance=true;
    }
  }

  if (advance && sampleMapMin==sampleMapMax) {
    sampleMapSelStart++;
    if (sampleMapSelStart>119) sampleMapSelStart=119;
    sampleMapSelEnd=sampleMapSelStart;
  }

  MARK_MODIFIED;
}

#define DRUM_FREQ(name,db,df,prop) \
  ImGui::TableNextRow(); \
  ImGui::TableNextColumn(); \
  if (ins->type==DIV_INS_OPLL) { \
    block=(prop>>9)&7; \
    fNum=prop&511; \
  } else { \
    block=(prop>>10)&7; \
    fNum=prop&1023; \
  } \
  ImGui::Text(name); \
  ImGui::TableNextColumn(); \
  if (ImGui::InputInt(db,&block,1,1)) { \
    if (block<0) block=0; \
    if (block>7) block=7; \
    if (ins->type==DIV_INS_OPLL) { \
      prop=(block<<9)|fNum; \
    } else { \
      prop=(block<<10)|fNum; \
    } \
  } \
  ImGui::TableNextColumn(); \
  if (ImGui::InputInt(df,&fNum,1,16)) { \
    if (fNum<0) fNum=0; \
    if (ins->type==DIV_INS_OPLL) { \
      if (fNum>511) fNum=511; \
      prop=(block<<9)|fNum; \
    } else { \
      if (fNum>1023) fNum=1023; \
      prop=(block<<10)|fNum; \
    } \
  }


#define CENTER_TEXT(text) \
  ImGui::SetCursorPosX(ImGui::GetCursorPosX()+0.5*(ImGui::GetContentRegionAvail().x-ImGui::CalcTextSize(text).x));

#define CENTER_VSLIDER \
  ImGui::SetCursorPosX(ImGui::GetCursorPosX()+0.5f*ImGui::GetContentRegionAvail().x-10.0f*dpiScale);

#define CENTER_TEXT_20(text) \
  ImGui::SetCursorPosX(ImGui::GetCursorPosX()+0.5*(20.0f*dpiScale-ImGui::CalcTextSize(text).x));

#define TOOLTIP_TEXT(text) \
  if (ImGui::IsItemHovered()) { \
    ImGui::SetTooltip("%s", text); \
  }

#define OP_DRAG_POINT \
  if (ImGui::Button(ICON_FA_ARROWS)) { \
  } \
  if (ImGui::BeginDragDropSource()) { \
    opToMove=i; \
    ImGui::SetDragDropPayload("FUR_OP",NULL,0,ImGuiCond_Once); \
    ImGui::Button(ICON_FA_ARROWS "##SysDrag"); \
    ImGui::SameLine(); \
    if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) { \
      ImGui::Text(_("(copying)")); \
    } else { \
      ImGui::Text(_("(swapping)")); \
    } \
    ImGui::EndDragDropSource(); \
  } else if (ImGui::IsItemHovered()) { \
    ImGui::SetTooltip(_("- drag to swap operator\n- shift-drag to copy operator")); \
  } \
  if (ImGui::BeginDragDropTarget()) { \
    const ImGuiPayload* dragItem=ImGui::AcceptDragDropPayload("FUR_OP"); \
    if (dragItem!=NULL) { \
      if (dragItem->IsDataType("FUR_OP")) { \
        if (opToMove!=i && opToMove>=0) { \
          int destOp=(opCount==4 && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_ESFM)?opOrder[i]:i; \
          int sourceOp=(opCount==4 && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_ESFM)?opOrder[opToMove]:opToMove; \
          if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) { \
            e->lockEngine([ins,destOp,sourceOp]() { \
              ins->fm.op[destOp]=ins->fm.op[sourceOp]; \
              ins->esfm.op[destOp]=ins->esfm.op[sourceOp]; \
            }); \
          } else { \
            e->lockEngine([ins,destOp,sourceOp]() { \
              DivInstrumentFM::Operator origOp=ins->fm.op[sourceOp]; \
              DivInstrumentESFM::Operator origOpE=ins->esfm.op[sourceOp]; \
              ins->fm.op[sourceOp]=ins->fm.op[destOp]; \
              ins->esfm.op[sourceOp]=ins->esfm.op[destOp]; \
              ins->fm.op[destOp]=origOp; \
              ins->esfm.op[destOp]=origOpE; \
            }); \
          } \
          PARAMETER; \
        } \
        opToMove=-1; \
      } \
    } \
    ImGui::EndDragDropTarget(); \
  }

void FurnaceGUI::insTabWavetable(DivInstrument* ins)
{
  if (ImGui::BeginTabItem(_("Wavetable"))) {
    switch (ins->type) {
      case DIV_INS_GB:
      case DIV_INS_NAMCO:
      case DIV_INS_SM8521:
      case DIV_INS_SWAN:
        wavePreviewLen=32;
        wavePreviewHeight=15;
        break;
      case DIV_INS_PCE:
        wavePreviewLen=32;
        wavePreviewHeight=31;
        break;
      case DIV_INS_VBOY:
        wavePreviewLen=32;
        wavePreviewHeight=63;
        break;
      case DIV_INS_SCC:
        wavePreviewLen=32;
        wavePreviewHeight=255;
        break;
      case DIV_INS_FDS:
        wavePreviewLen=64;
        wavePreviewHeight=63;
        break;
      case DIV_INS_N163:
        wavePreviewLen=ins->n163.waveLen;
        wavePreviewHeight=15;
        break;
      case DIV_INS_X1_010:
        wavePreviewLen=128;
        wavePreviewHeight=255;
        break;
      case DIV_INS_AMIGA:
      case DIV_INS_GBA_DMA:
        wavePreviewLen=ins->amiga.waveLen+1;
        wavePreviewHeight=255;
        break;
      case DIV_INS_SNES:
        wavePreviewLen=ins->amiga.waveLen+1;
        wavePreviewHeight=15;
        break;
      case DIV_INS_GBA_MINMOD:
        wavePreviewLen=ins->amiga.waveLen+1;
        wavePreviewHeight=255;
        break;
      case DIV_INS_SID3:
        wavePreviewLen=256;
        wavePreviewHeight=255;
        break;
      default:
        wavePreviewLen=32;
        wavePreviewHeight=31;
        break;
    }
    if (ImGui::Checkbox(_("Enable synthesizer"),&ins->ws.enabled)) { PARAMETER
      wavePreviewInit=true;
    }
    if (ins->ws.enabled) {
      ImGui::SameLine();
      ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
      if (ins->ws.effect&0x80) {
        if ((ins->ws.effect&0x7f)>=DIV_WS_DUAL_MAX) {
          ins->ws.effect=0;
          wavePreviewInit=true;
        }
      } else {
        if ((ins->ws.effect&0x7f)>=DIV_WS_SINGLE_MAX) {
          ins->ws.effect=0;
          wavePreviewInit=true;
        }
      }
      if (ImGui::BeginCombo("##WSEffect",(ins->ws.effect&0x80)?dualWSEffects[ins->ws.effect&0x7f]:singleWSEffects[ins->ws.effect&0x7f])) {
        ImGui::Text(_("Single-waveform"));
        ImGui::Indent();
        for (int i=0; i<DIV_WS_SINGLE_MAX; i++) {
          if (ImGui::Selectable(_(singleWSEffects[i]))) { PARAMETER
            ins->ws.effect=i;
            wavePreviewInit=true;
          }
        }
        ImGui::Unindent();
        ImGui::Text(_("Dual-waveform"));
        ImGui::Indent();
        for (int i=129; i<DIV_WS_DUAL_MAX; i++) {
          if (ImGui::Selectable(_(dualWSEffects[i-128]))) { PARAMETER
            ins->ws.effect=i;
            wavePreviewInit=true;
          }
        }
        ImGui::Unindent();
        ImGui::EndCombo();
      }
      const bool isSingleWaveFX=(ins->ws.effect>=128);
      if (ImGui::BeginTable("WSPreview",isSingleWaveFX?3:2)) {
        DivWavetable* wave1=e->getWave(ins->ws.wave1);
        DivWavetable* wave2=e->getWave(ins->ws.wave2);
        if (wavePreviewInit) {
          wavePreview.init(ins,wavePreviewLen,wavePreviewHeight,true);
          wavePreviewInit=false;
        }
        float wavePreview1[257];
        float wavePreview2[257];
        float wavePreview3[257];
        for (int i=0; i<wave1->len; i++) {
          if (wave1->data[i]>wave1->max) {
            wavePreview1[i]=wave1->max;
          } else {
            wavePreview1[i]=wave1->data[i];
          }
        }
        if (wave1->len>0) {
          wavePreview1[wave1->len]=wave1->data[wave1->len-1];
        }
        for (int i=0; i<wave2->len; i++) {
          if (wave2->data[i]>wave2->max) {
            wavePreview2[i]=wave2->max;
          } else {
            wavePreview2[i]=wave2->data[i];
          }
        }
        if (wave2->len>0) {
          wavePreview2[wave2->len]=wave2->data[wave2->len-1];
        }
        if (ins->ws.enabled && (!wavePreviewPaused || wavePreviewInit)) {
          wavePreview.tick(true);
          WAKE_UP;
        }
        for (int i=0; i<wavePreviewLen; i++) {
          wavePreview3[i]=wavePreview.output[i];
        }
        if (wavePreviewLen>0) {
          wavePreview3[wavePreviewLen]=wavePreview3[wavePreviewLen-1];
        }

        float ySize=(isSingleWaveFX?96.0f:128.0f)*dpiScale;

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImVec2 size1=ImVec2(ImGui::GetContentRegionAvail().x,ySize);
        PlotNoLerp("##WaveformP1",wavePreview1,wave1->len+1,0,"Wave 1",0,wave1->max,size1);
        if (isSingleWaveFX) {
          ImGui::TableNextColumn();
          ImVec2 size2=ImVec2(ImGui::GetContentRegionAvail().x,ySize);
          PlotNoLerp("##WaveformP2",wavePreview2,wave2->len+1,0,"Wave 2",0,wave2->max,size2);
        }
        ImGui::TableNextColumn();
        ImVec2 size3=ImVec2(ImGui::GetContentRegionAvail().x,ySize);
        PlotNoLerp("##WaveformP3",wavePreview3,wavePreviewLen+1,0,"Result",0,wavePreviewHeight,size3);

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        if (ins->std.waveMacro.len>0) {
          ImGui::PushStyleColor(ImGuiCol_Text,uiColors[GUI_COLOR_WARNING]);
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Wave 1"));
          ImGui::SameLine();
          ImGui::Text(ICON_FA_EXCLAMATION_TRIANGLE);
          ImGui::PopStyleColor();
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("waveform macro is controlling wave 1!\nthis value will be ineffective."));
          }
        } else {
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Wave 1"));
        }
        ImGui::SameLine();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        if (ImGui::InputInt("##SelWave1",&ins->ws.wave1,1,4)) { PARAMETER
          if (ins->ws.wave1<0) ins->ws.wave1=0;
          if (ins->ws.wave1>=(int)e->song.wave.size()) ins->ws.wave1=e->song.wave.size()-1;
          wavePreviewInit=true;
        }
        if (ins->std.waveMacro.len>0) {
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("waveform macro is controlling wave 1!\nthis value will be ineffective."));
          }
        }
        if (isSingleWaveFX) {
          ImGui::TableNextColumn();
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Wave 2"));
          ImGui::SameLine();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (ImGui::InputInt("##SelWave2",&ins->ws.wave2,1,4)) { PARAMETER
            if (ins->ws.wave2<0) ins->ws.wave2=0;
            if (ins->ws.wave2>=(int)e->song.wave.size()) ins->ws.wave2=e->song.wave.size()-1;
            wavePreviewInit=true;
          }
        }
        ImGui::TableNextColumn();
        if (ImGui::Button(wavePreviewPaused?(ICON_FA_PLAY "##WSPause"):(ICON_FA_PAUSE "##WSPause"))) {
          wavePreviewPaused=!wavePreviewPaused;
        }
        if (ImGui::IsItemHovered()) {
          if (wavePreviewPaused) {
            ImGui::SetTooltip(_("Resume preview"));
          } else {
            ImGui::SetTooltip(_("Pause preview"));
          }
        }
        ImGui::SameLine();
        if (ImGui::Button(ICON_FA_REPEAT "##WSRestart")) {
          wavePreviewInit=true;
        }
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Restart preview"));
        }
        ImGui::SameLine();
        if (ImGui::Button(ICON_FA_UPLOAD "##WSCopy")) {
          curWave=e->addWave();
          if (curWave==-1) {
            showError(_("too many wavetables!"));
          } else {
            wantScrollListWave=true;
            MARK_MODIFIED;
            RESET_WAVE_MACRO_ZOOM;
            nextWindow=GUI_WINDOW_WAVE_EDIT;

            DivWavetable* copyWave=e->song.wave[curWave];
            copyWave->len=wavePreviewLen;
            copyWave->max=wavePreviewHeight;
            memcpy(copyWave->data,wavePreview.output,256*sizeof(int));
          }
        }
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Copy to new wavetable"));
        }
        ImGui::SameLine();
        ImGui::Text("(%d×%d)",wavePreviewLen,wavePreviewHeight+1);
        ImGui::EndTable();
      }

      if (ImGui::InputScalar(_("Update Rate"),ImGuiDataType_U8,&ins->ws.rateDivider,&_ONE,&_EIGHT)) { PARAMETER
        wavePreviewInit=true;
      }
      int speed=ins->ws.speed+1;
      if (ImGui::InputInt(_("Speed"),&speed,1,8)) { PARAMETER
        if (speed<1) speed=1;
        if (speed>256) speed=256;
        ins->ws.speed=speed-1;
        wavePreviewInit=true;
      }

      if (ImGui::InputScalar(_("Amount"),ImGuiDataType_U8,&ins->ws.param1,&_ONE,&_EIGHT)) { PARAMETER
        wavePreviewInit=true;
      }

      if (ins->ws.effect==DIV_WS_PHASE_MOD) {
        if (ImGui::InputScalar(_("Power"),ImGuiDataType_U8,&ins->ws.param2,&_ONE,&_EIGHT)) { PARAMETER
          wavePreviewInit=true;
        }
      }

      if (ImGui::Checkbox(_("Global"),&ins->ws.global)) { PARAMETER
        wavePreviewInit=true;
      }
    } else {
      ImGui::TextWrapped(_("wavetable synthesizer disabled.\nuse the Waveform macro to set the wave for this instrument."));
    }

    ImGui::EndTabItem();
  }
}

void FurnaceGUI::insTabSample(DivInstrument* ins) {
  const char* sampleTabName=_("Sample");
  if (ins->type==DIV_INS_NES) sampleTabName=_("DPCM");
  if (ImGui::BeginTabItem(sampleTabName)) {
    if (ins->type==DIV_INS_NES && e->song.compatFlags.oldDPCM) {
      ImGui::Text(_("new DPCM features disabled (compatibility)!"));
      if (ImGui::Button(_("click here to enable them."))) {
        e->song.compatFlags.oldDPCM=false;
        MARK_MODIFIED;
      }
      ImGui::EndTabItem();
      return;
    }

    String sName;
    bool wannaOpenSMPopup=false;
    if (ins->amiga.initSample<0 || ins->amiga.initSample>=e->song.sampleLen) {
      sName=_("none selected");
    } else {
      sName=e->song.sample[ins->amiga.initSample]->name;
    }
    if (ins->type==DIV_INS_PCE ||
        ins->type==DIV_INS_MIKEY ||
        ins->type==DIV_INS_X1_010 ||
        ins->type==DIV_INS_SWAN ||
        ins->type==DIV_INS_AY ||
        ins->type==DIV_INS_AY8930 ||
        ins->type==DIV_INS_VRC6 ||
        ins->type==DIV_INS_SU ||
        ins->type==DIV_INS_NDS ||
        ins->type==DIV_INS_SUPERVISION ||
        ins->type==DIV_INS_SID3) {
      P(ImGui::Checkbox(_("Use sample"),&ins->amiga.useSample));
      if (ins->type==DIV_INS_X1_010) {
        if (ImGui::InputInt(_("Sample bank slot##BANKSLOT"),&ins->x1_010.bankSlot,1,4)) { PARAMETER
          if (ins->x1_010.bankSlot<0) ins->x1_010.bankSlot=0;
          if (ins->x1_010.bankSlot>=7) ins->x1_010.bankSlot=7;
          notifySampleChange=true;
        }
      }
    }
    ImGui::AlignTextToFramePadding();
    ImGui::Text(_("Sample"));
    ImGui::SameLine();
    ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
    if (ImGui::BeginCombo("##ISample",sName.c_str())) {
      String id;
      for (int i=0; i<e->song.sampleLen; i++) {
        id=fmt::sprintf("%d: %s",i,e->song.sample[i]->name);
        if (ImGui::Selectable(id.c_str(),ins->amiga.initSample==i)) { PARAMETER
          ins->amiga.initSample=i;
          notifySampleChange=true;
        }
      }
      ImGui::EndCombo();
    }
    // Wavetable
    if (ins->type==DIV_INS_AMIGA || ins->type==DIV_INS_SNES || ins->type==DIV_INS_GBA_DMA || ins->type==DIV_INS_GBA_MINMOD) {
      const char* useWaveText=ins->type==DIV_INS_AMIGA?_("Use wavetable (Amiga/Generic DAC only)"):_("Use wavetable");
      ImGui::BeginDisabled(ins->amiga.useNoteMap);
      P(ImGui::Checkbox(useWaveText,&ins->amiga.useWave));
      if (ins->amiga.useWave) {
        int len=ins->amiga.waveLen+1;
        int origLen=len;
        if (ImGui::InputInt(_("Width"),&len,2,16)) {
          if (ins->type==DIV_INS_SNES || ins->type==DIV_INS_GBA_DMA) {
            if (len<16) len=16;
            if (len>256) len=256;
            if (len>origLen) {
              ins->amiga.waveLen=((len+15)&(~15))-1;
            } else {
              ins->amiga.waveLen=(len&(~15))-1;
            }
          } else {
            if (len<2) len=2;
            if (len>256) len=256;
            ins->amiga.waveLen=(len&(~1))-1;
          }
          PARAMETER
        }
      }
      ImGui::EndDisabled();
    } else {
      ins->amiga.useWave=false;
    }
    // Note map
    ImGui::BeginDisabled(ins->amiga.useWave);
    P(ImGui::Checkbox(_("Use sample map"),&ins->amiga.useNoteMap));
    if ((ins->type==DIV_INS_MULTIPCM) && ImGui::IsItemHovered()) {
      ImGui::SetTooltip(_("Only for OPL4 PCM."));
    }
    if (ins->amiga.useNoteMap) {
      if (ImGui::IsMouseClicked(ImGuiMouseButton_Left) && ImGui::IsWindowHovered(ImGuiHoveredFlags_ChildWindows)) sampleMapFocused=false;
      if (curWindowLast!=GUI_WINDOW_INS_EDIT) sampleMapFocused=false;
      if (!sampleMapFocused) sampleMapDigit=0;
      if (ImGui::BeginTable("NoteMap",(ins->type==DIV_INS_NES)?5:4,ImGuiTableFlags_ScrollY|ImGuiTableFlags_Borders|ImGuiTableFlags_SizingStretchSame)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
        if (ins->type==DIV_INS_NES) ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthStretch);

        ImGui::TableSetupScrollFreeze(0,1);

        ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
        ImGui::TableNextColumn();
        ImGui::TableNextColumn();
        ImGui::Text("#");
        if (ins->type==DIV_INS_NES) {
          ImGui::TableNextColumn();
          ImGui::Text(_("pitch"));
          ImGui::TableNextColumn();
          ImGui::Text(_("delta"));
        } else {
          ImGui::TableNextColumn();
          ImGui::Text(_("note"));
        }
        ImGui::TableNextColumn();
        ImGui::Text(_("sample name"));
        int sampleMapMin=sampleMapSelStart;
        int sampleMapMax=sampleMapSelEnd;
        if (sampleMapMin>sampleMapMax) {
          sampleMapMin^=sampleMapMax;
          sampleMapMax^=sampleMapMin;
          sampleMapMin^=sampleMapMax;
        }

        ImGui::PushStyleColor(ImGuiCol_Header,ImGui::GetColorU32(ImGuiCol_HeaderHovered));
        ImGui::PushStyleColor(ImGuiCol_HeaderActive,ImGui::GetColorU32(ImGuiCol_HeaderHovered));
        for (int i=0; i<120; i++) {
          DivInstrumentAmiga::SampleMap& sampleMap=ins->amiga.noteMap[i];
          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::TableSetBgColor(ImGuiTableBgTarget_CellBg,ImGui::GetColorU32(ImGuiCol_TableHeaderBg));
          ImGui::AlignTextToFramePadding();
          ImGui::Text("%s",noteNames[60+i]);
          ImGui::TableNextColumn();
          if (sampleMap.map<0 || sampleMap.map>=e->song.sampleLen) {
            sName=fmt::sprintf("-----##SM%d",i);
            sampleMap.map=-1;
          } else {
            sName=fmt::sprintf("%5d##SM%d",sampleMap.map,i);
          }
          ImGui::PushFont(patFont);
          ImGui::AlignTextToFramePadding();
          ImGui::SetNextItemWidth(ImGui::CalcTextSize("00000").x);
          ImGui::Selectable(sName.c_str(),(sampleMapWaitingInput && sampleMapColumn==0 && i>=sampleMapMin && i<=sampleMapMax));
          if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
            sampleMapFocused=true;
            sampleMapColumn=0;
            sampleMapDigit=0;
            sampleMapSelStart=i;
            sampleMapSelEnd=i;

            sampleMapMin=sampleMapSelStart;
            sampleMapMax=sampleMapSelEnd;
            if (sampleMapMin>sampleMapMax) {
              sampleMapMin^=sampleMapMax;
              sampleMapMax^=sampleMapMin;
              sampleMapMin^=sampleMapMax;
            }
            ImGui::InhibitInertialScroll();
          }
          if (sampleMapFocused && ImGui::IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem) && ImGui::IsMouseDown(ImGuiMouseButton_Left)) {
            sampleMapSelEnd=i;
          }
          if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
            if (sampleMapSelStart==sampleMapSelEnd) {
              sampleMapFocused=true;
              sampleMapColumn=0;
              sampleMapDigit=0;
              sampleMapSelStart=i;
              sampleMapSelEnd=i;

              sampleMapMin=sampleMapSelStart;
              sampleMapMax=sampleMapSelEnd;
              if (sampleMapMin>sampleMapMax) {
                sampleMapMin^=sampleMapMax;
                sampleMapMax^=sampleMapMin;
                sampleMapMin^=sampleMapMax;
              }
            }
            if (sampleMapFocused) {
              wannaOpenSMPopup=true;
            }
          }
          ImGui::PopFont();

          if (ins->type==DIV_INS_NES) {
            // pitch
            ImGui::TableNextColumn();
            ImGui::PushFont(patFont);
            ImGui::AlignTextToFramePadding();
            ImGui::SetNextItemWidth(ImGui::CalcTextSize("0000").x);
            if (sampleMap.dpcmFreq<0) {
              sName=fmt::sprintf(" -- ##SD1%d",i);
            } else {
              sName=fmt::sprintf(" %2d ##SD1%d",sampleMap.dpcmFreq,i);
            }
            ImGui::Selectable(sName.c_str(),(sampleMapWaitingInput && sampleMapColumn==2 && i>=sampleMapMin && i<=sampleMapMax));

            if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
              sampleMapFocused=true;
              sampleMapColumn=2;
              sampleMapDigit=0;
              sampleMapSelStart=i;
              sampleMapSelEnd=i;

              sampleMapMin=sampleMapSelStart;
              sampleMapMax=sampleMapSelEnd;
              if (sampleMapMin>sampleMapMax) {
                sampleMapMin^=sampleMapMax;
                sampleMapMax^=sampleMapMin;
                sampleMapMin^=sampleMapMax;
              }
              ImGui::InhibitInertialScroll();
            }
            if (sampleMapFocused && ImGui::IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem) && ImGui::IsMouseDown(ImGuiMouseButton_Left)) {
              sampleMapSelEnd=i;
            }
            if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
              if (sampleMapSelStart==sampleMapSelEnd) {
                sampleMapFocused=true;
                sampleMapColumn=2;
                sampleMapDigit=0;
                sampleMapSelStart=i;
                sampleMapSelEnd=i;

                sampleMapMin=sampleMapSelStart;
                sampleMapMax=sampleMapSelEnd;
                if (sampleMapMin>sampleMapMax) {
                  sampleMapMin^=sampleMapMax;
                  sampleMapMax^=sampleMapMin;
                  sampleMapMin^=sampleMapMax;
                }
              }
              if (sampleMapFocused) {
                wannaOpenSMPopup=true;
              }
            }

            ImGui::PopFont();

            // delta
            ImGui::TableNextColumn();
            ImGui::PushFont(patFont);
            ImGui::AlignTextToFramePadding();
            ImGui::SetNextItemWidth(ImGui::CalcTextSize("0000").x);
            if (sampleMap.dpcmDelta<0) {
              sName=fmt::sprintf(" -- ##SD2%d",i);
            } else {
              sName=fmt::sprintf(" %2X ##SD2%d",sampleMap.dpcmDelta,i);
            }
            ImGui::Selectable(sName.c_str(),(sampleMapWaitingInput && sampleMapColumn==3 && i>=sampleMapMin && i<=sampleMapMax));

            if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
              sampleMapFocused=true;
              sampleMapColumn=3;
              sampleMapDigit=0;
              sampleMapSelStart=i;
              sampleMapSelEnd=i;

              sampleMapMin=sampleMapSelStart;
              sampleMapMax=sampleMapSelEnd;
              if (sampleMapMin>sampleMapMax) {
                sampleMapMin^=sampleMapMax;
                sampleMapMax^=sampleMapMin;
                sampleMapMin^=sampleMapMax;
              }
              ImGui::InhibitInertialScroll();
            }
            if (sampleMapFocused && ImGui::IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem) && ImGui::IsMouseDown(ImGuiMouseButton_Left)) {
              sampleMapSelEnd=i;
            }
            if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
              if (sampleMapSelStart==sampleMapSelEnd) {
                sampleMapFocused=true;
                sampleMapColumn=3;
                sampleMapDigit=0;
                sampleMapSelStart=i;
                sampleMapSelEnd=i;

                sampleMapMin=sampleMapSelStart;
                sampleMapMax=sampleMapSelEnd;
                if (sampleMapMin>sampleMapMax) {
                  sampleMapMin^=sampleMapMax;
                  sampleMapMax^=sampleMapMin;
                  sampleMapMin^=sampleMapMax;
                }
              }
              if (sampleMapFocused) {
                wannaOpenSMPopup=true;
              }
            }

            ImGui::PopFont();
          } else {
            ImGui::TableNextColumn();
            sName="???";
            if ((sampleMap.freq+60)>0 && (sampleMap.freq+60)<180) {
              sName=noteNames[sampleMap.freq+60];
            }
            sName+=fmt::sprintf("##SN%d",i);
            ImGui::PushFont(patFont);
            ImGui::AlignTextToFramePadding();
            ImGui::SetNextItemWidth(ImGui::CalcTextSize("00000").x);
            ImGui::Selectable(sName.c_str(),(sampleMapWaitingInput && sampleMapColumn==1 && i>=sampleMapMin && i<=sampleMapMax));
            if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
              sampleMapFocused=true;
              sampleMapColumn=1;
              sampleMapDigit=0;
              sampleMapSelStart=i;
              sampleMapSelEnd=i;

              sampleMapMin=sampleMapSelStart;
              sampleMapMax=sampleMapSelEnd;
              if (sampleMapMin>sampleMapMax) {
                sampleMapMin^=sampleMapMax;
                sampleMapMax^=sampleMapMin;
                sampleMapMin^=sampleMapMax;
              }
              ImGui::InhibitInertialScroll();
            }
            if (sampleMapFocused && ImGui::IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem) && ImGui::IsMouseDown(ImGuiMouseButton_Left)) {
              sampleMapSelEnd=i;
            }
            if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
              if (sampleMapSelStart==sampleMapSelEnd) {
                sampleMapFocused=true;
                sampleMapColumn=1;
                sampleMapDigit=0;
                sampleMapSelStart=i;
                sampleMapSelEnd=i;

                sampleMapMin=sampleMapSelStart;
                sampleMapMax=sampleMapSelEnd;
                if (sampleMapMin>sampleMapMax) {
                  sampleMapMin^=sampleMapMax;
                  sampleMapMax^=sampleMapMin;
                  sampleMapMin^=sampleMapMax;
                }
              }
              if (sampleMapFocused) {
                wannaOpenSMPopup=true;
              }
            }
            ImGui::PopFont();
          }

          ImGui::TableNextColumn();
          String prevName="---";
          if (sampleMap.map>=0 && sampleMap.map<e->song.sampleLen) {
            prevName=e->song.sample[sampleMap.map]->name;
          }
          ImGui::PushID(i+2);
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (ImGui::BeginCombo("##SMSample",prevName.c_str())) {
            if (ImGui::Selectable("---")) {
              sampleMap.map=-1;
            }
            for (int k=0; k<e->song.sampleLen; k++) {
              String itemName=fmt::sprintf("%d: %s",k,e->song.sample[k]->name);
              if (ImGui::Selectable(itemName.c_str())) {
                sampleMap.map=k;
              }
            }
            ImGui::EndCombo();
          }
          ImGui::PopID();
        }
        ImGui::PopStyleColor(2);
        ImGui::EndTable();
      }
    } else {
      sampleMapFocused=false;
    }
    ImGui::EndDisabled();
    if (wannaOpenSMPopup) {
      ImGui::OpenPopup("SampleMapUtils");
    }
    if (ImGui::BeginPopup("SampleMapUtils",ImGuiWindowFlags_NoMove|ImGuiWindowFlags_AlwaysAutoResize|ImGuiWindowFlags_NoTitleBar|ImGuiWindowFlags_NoSavedSettings)) {
      if (sampleMapSelStart==sampleMapSelEnd && sampleMapSelStart>=0 && sampleMapSelStart<120) {
        if (ins->type==DIV_INS_NES) {
          if (ImGui::MenuItem(_("set entire map to this pitch"))) {
            if (sampleMapSelStart>=0 && sampleMapSelStart<120) {
              for (int i=0; i<120; i++) {
                if (i==sampleMapSelStart) continue;
                ins->amiga.noteMap[i].dpcmFreq=ins->amiga.noteMap[sampleMapSelStart].dpcmFreq;
              }
            }
          }
          if (ImGui::MenuItem(_("set entire map to this delta counter value"))) {
            if (sampleMapSelStart>=0 && sampleMapSelStart<120) {
              for (int i=0; i<120; i++) {
                if (i==sampleMapSelStart) continue;
                ins->amiga.noteMap[i].dpcmDelta=ins->amiga.noteMap[sampleMapSelStart].dpcmDelta;
              }
            }
          }
        } else {
          if (ImGui::MenuItem(_("set entire map to this note"))) {
            if (sampleMapSelStart>=0 && sampleMapSelStart<120) {
              for (int i=0; i<120; i++) {
                if (i==sampleMapSelStart) continue;
                ins->amiga.noteMap[i].freq=ins->amiga.noteMap[sampleMapSelStart].freq;
              }
            }
          }
        }
        if (ImGui::MenuItem(_("set entire map to this sample"))) {
          if (sampleMapSelStart>=0 && sampleMapSelStart<120) {
            for (int i=0; i<120; i++) {
              if (i==sampleMapSelStart) continue;
              ins->amiga.noteMap[i].map=ins->amiga.noteMap[sampleMapSelStart].map;
            }
          }
        }
      }
      if (ins->type==DIV_INS_NES) {
        if (ImGui::MenuItem(_("reset pitches"))) {
          for (int i=0; i<120; i++) {
            ins->amiga.noteMap[i].dpcmFreq=15;
          }
        }
        if (ImGui::MenuItem(_("clear delta counter values"))) {
          for (int i=0; i<120; i++) {
            ins->amiga.noteMap[i].dpcmDelta=-1;
          }
        }
      } else {
        if (ImGui::MenuItem(_("reset notes"))) {
          for (int i=0; i<120; i++) {
            ins->amiga.noteMap[i].freq=i;
          }
        }
      }
      if (ImGui::MenuItem(_("clear map samples"))) {
        for (int i=0; i<120; i++) {
          ins->amiga.noteMap[i].map=-1;
        }
      }
      ImGui::EndPopup();
    }
    ImGui::EndTabItem();
  } else {
    sampleMapFocused=false;
  }
}

void FurnaceGUI::insTabFMModernHeader(DivInstrument* ins) {
  ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
  ImGui::TableNextColumn();
  if (ins->type==DIV_INS_ESFM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(ESFM_SHORT_NAME(ESFM_MODIN));
    ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_MODIN));
    TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_MODIN));
    ImGui::TableNextColumn();
    ImGui::TableNextColumn();
    CENTER_TEXT(ESFM_SHORT_NAME(ESFM_DELAY));
    ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_DELAY));
    TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_DELAY));
  }
  ImGui::TableNextColumn();
  CENTER_TEXT(FM_SHORT_NAME(FM_AR));
  ImGui::TextUnformatted(FM_SHORT_NAME(FM_AR));
  TOOLTIP_TEXT(FM_NAME(FM_AR));
  ImGui::TableNextColumn();
  CENTER_TEXT(FM_SHORT_NAME(FM_DR));
  ImGui::TextUnformatted(FM_SHORT_NAME(FM_DR));
  TOOLTIP_TEXT(FM_NAME(FM_DR));
  if (settings.susPosition==0) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_SL));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_SL));
    TOOLTIP_TEXT(FM_NAME(FM_SL));
  }
  if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_D2R));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_D2R));
    TOOLTIP_TEXT(FM_NAME(FM_D2R));
  }
  ImGui::TableNextColumn();
  CENTER_TEXT(FM_SHORT_NAME(FM_RR));
  ImGui::TextUnformatted(FM_SHORT_NAME(FM_RR));
  TOOLTIP_TEXT(FM_NAME(FM_RR));
  if (settings.susPosition==1) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_SL));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_SL));
    TOOLTIP_TEXT(FM_NAME(FM_SL));
  }
  ImGui::TableNextColumn();
  if (settings.susPosition==2) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_SL));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_SL));
    TOOLTIP_TEXT(FM_NAME(FM_SL));
  }
  ImGui::TableNextColumn();
  CENTER_TEXT(FM_SHORT_NAME(FM_TL));
  ImGui::TextUnformatted(FM_SHORT_NAME(FM_TL));
  TOOLTIP_TEXT(FM_NAME(FM_TL));
  if (settings.susPosition==3) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_SL));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_SL));
    TOOLTIP_TEXT(FM_NAME(FM_SL));
  }
  ImGui::TableNextColumn();
  if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
    CENTER_TEXT(FM_SHORT_NAME(FM_RS));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_RS));
    TOOLTIP_TEXT(FM_NAME(FM_RS));
  } else {
    CENTER_TEXT(FM_SHORT_NAME(FM_KSL));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_KSL));
    TOOLTIP_TEXT(FM_NAME(FM_KSL));
  }
  if (ins->type==DIV_INS_OPZ) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_EGSHIFT));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_EGSHIFT));
    TOOLTIP_TEXT(FM_NAME(FM_EGSHIFT));
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_REV));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_REV));
    TOOLTIP_TEXT(FM_NAME(FM_REV));
  }
  if (ins->type==DIV_INS_ESFM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(ESFM_SHORT_NAME(ESFM_OUTLVL));
    ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_OUTLVL));
    TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_OUTLVL));
  }
  ImGui::TableNextColumn();
  CENTER_TEXT(FM_SHORT_NAME(FM_MULT));
  ImGui::TextUnformatted(FM_SHORT_NAME(FM_MULT));
  TOOLTIP_TEXT(FM_NAME(FM_MULT));
  if (ins->type==DIV_INS_OPZ) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_SHORT_NAME(FM_FINE));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_FINE));
    TOOLTIP_TEXT(FM_NAME(FM_FINE));
  }
  if (ins->type==DIV_INS_ESFM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(ESFM_SHORT_NAME(ESFM_CT));
    ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_CT));
    TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_CT));
  }
  ImGui::TableNextColumn();
  if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
    CENTER_TEXT(FM_SHORT_NAME(FM_DT));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_DT));
    TOOLTIP_TEXT(FM_NAME(FM_DT));
    ImGui::TableNextColumn();
  }
  if (ins->type==DIV_INS_ESFM) {
    CENTER_TEXT(ESFM_SHORT_NAME(ESFM_DT));
    ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_DT));
    TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_DT));
    ImGui::TableNextColumn();
  }
  if (ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
    CENTER_TEXT(FM_SHORT_NAME(FM_DT2));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_DT2));
    TOOLTIP_TEXT(FM_NAME(FM_DT2));
    ImGui::TableNextColumn();
  }
  if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM) {
    CENTER_TEXT(FM_SHORT_NAME(FM_AM));
    ImGui::TextUnformatted(FM_SHORT_NAME(FM_AM));
    TOOLTIP_TEXT(FM_NAME(FM_AM));
  } else {
    CENTER_TEXT("Other");
    ImGui::TextUnformatted("Other");
  }
  ImGui::TableNextColumn();
  if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_ESFM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_NAME(FM_WS));
    ImGui::TextUnformatted(FM_NAME(FM_WS));
  } else if (ins->type!=DIV_INS_OPLL && ins->type!=DIV_INS_OPM) {
    ImGui::TableNextColumn();
    CENTER_TEXT(FM_NAME(FM_SSG));
    ImGui::TextUnformatted(FM_NAME(FM_SSG));
  }
  ImGui::TableNextColumn();
  CENTER_TEXT(_("Envelope"));
  ImGui::TextUnformatted(_("Envelope"));
}

void FurnaceGUI::insTabFM(DivInstrument* ins) {
  int opCount=4;
  if (ins->type==DIV_INS_OPLL) opCount=2;
  if (ins->type==DIV_INS_OPL) opCount=(ins->fm.ops==4)?4:2;
  bool opsAreMutable=(ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM);

  if (ImGui::BeginTabItem("FM")) {
    DivInstrumentFM& fmOrigin=(ins->type==DIV_INS_OPLL && ins->fm.opllPreset>0 && ins->fm.opllPreset<16)?opllPreview:ins->fm;

    bool isPresent[4];
    int isPresentCount=0;
    memset(isPresent,0,4*sizeof(bool));
    for (int i=0; i<e->song.systemLen; i++) {
      if (e->song.system[i]==DIV_SYSTEM_VRC7) {
        isPresent[3]=true;
      } else if (e->song.system[i]==DIV_SYSTEM_OPLL || e->song.system[i]==DIV_SYSTEM_OPLL_DRUMS) {
        isPresent[(e->song.systemFlags[i].getInt("patchSet",0))&3]=true;
      }
    }
    if (!isPresent[0] && !isPresent[1] && !isPresent[2] && !isPresent[3]) {
      isPresent[0]=true;
    }
    for (int i=0; i<4; i++) {
      if (isPresent[i]) isPresentCount++;
    }
    int presentWhich=0;
    for (int i=0; i<4; i++) {
      if (isPresent[i]) {
        presentWhich=i;
        break;
      }
    }

    if (ImGui::BeginTable("fmDetails",3,(ins->type==DIV_INS_ESFM)?ImGuiTableFlags_SizingStretchProp:ImGuiTableFlags_SizingStretchSame)) {
      String blockTxt=_("Automatic");
      if (ins->fm.block>=1) {
        blockTxt=fmt::sprintf("%d",ins->fm.block-1);
      }

      ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,((ins->type==DIV_INS_ESFM)?0.40f:0.0f));
      ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,((ins->type==DIV_INS_ESFM)?0.25f:0.0f));
      ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,((ins->type==DIV_INS_ESFM)?0.35f:0.0f));

      ImGui::TableNextRow();
      switch (ins->type) {
        case DIV_INS_FM:
        case DIV_INS_OPM:
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_FB),ImGuiDataType_U8,&ins->fm.fb,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_FMS),ImGuiDataType_U8,&ins->fm.fms,&_ZERO,&_SEVEN)); rightClickable
          if (ins->type==DIV_INS_FM) {
            P(CWSliderScalar(FM_NAME(FM_BLOCK),ImGuiDataType_U8,&ins->fm.block,&_ZERO,&_EIGHT,blockTxt.c_str())); rightClickable
          }
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_ALG),ImGuiDataType_U8,&ins->fm.alg,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_AMS),ImGuiDataType_U8,&ins->fm.ams,&_ZERO,&_THREE)); rightClickable
          ImGui::TableNextColumn();
          if (fmPreviewOn) {
            drawFMPreview(ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
            if (!fmPreviewPaused) {
              renderFMPreview(ins,1);
              WAKE_UP;
            }
          } else {
            drawAlgorithm(ins->fm.alg,FM_ALGS_4OP,ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
          }
          kvsConfig(ins);
          break;
        case DIV_INS_OPZ:
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_FB),ImGuiDataType_U8,&ins->fm.fb,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_FMS),ImGuiDataType_U8,&ins->fm.fms,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_FMS2),ImGuiDataType_U8,&ins->fm.fms2,&_ZERO,&_SEVEN)); rightClickable
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_ALG),ImGuiDataType_U8,&ins->fm.alg,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_AMS),ImGuiDataType_U8,&ins->fm.ams,&_ZERO,&_THREE)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_AMS2),ImGuiDataType_U8,&ins->fm.ams2,&_ZERO,&_THREE)); rightClickable
          ImGui::TableNextColumn();
          if (fmPreviewOn) {
            drawFMPreview(ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
            if (!fmPreviewPaused) {
              renderFMPreview(ins,1);
              WAKE_UP;
            }
          } else {
            drawAlgorithm(ins->fm.alg,FM_ALGS_4OP,ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
          }
          kvsConfig(ins);

          if (ImGui::Button(_("Request from TX81Z"))) {
            doAction(GUI_ACTION_TX81Z_REQUEST);
          }
          /* 
          ImGui::SameLine();
          if (ImGui::Button("Send to TX81Z")) {
            showError("Coming soon!");
          }
          */
          break;
        case DIV_INS_OPL:
        case DIV_INS_OPL_DRUMS: {
          bool fourOp=(ins->fm.ops==4 || ins->type==DIV_INS_OPL_DRUMS);
          bool drums=ins->fm.opllPreset==16;
          int algMax=fourOp?3:1;
          ImGui::TableNextColumn();
          ins->fm.alg&=algMax;
          P(CWSliderScalar(FM_NAME(FM_FB),ImGuiDataType_U8,&ins->fm.fb,&_ZERO,&_SEVEN)); rightClickable
          P(CWSliderScalar(FM_NAME(FM_BLOCK),ImGuiDataType_U8,&ins->fm.block,&_ZERO,&_EIGHT,blockTxt.c_str())); rightClickable
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_ALG),ImGuiDataType_U8,&ins->fm.alg,&_ZERO,&algMax)); rightClickable
          if (ins->type==DIV_INS_OPL) {
            ImGui::BeginDisabled(ins->fm.opllPreset==16);
            if (ImGui::Checkbox("4-op",&fourOp)) { PARAMETER
              ins->fm.ops=fourOp?4:2;
            }
            ImGui::EndDisabled();
            ImGui::SameLine();
            if (ImGui::Checkbox(_("Drums"),&drums)) { PARAMETER
              ins->fm.opllPreset=drums?16:0;
            }
          }
          ImGui::TableNextColumn();
          if (fmPreviewOn) {
            drawFMPreview(ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
            if (!fmPreviewPaused) {
              renderFMPreview(ins,1);
              WAKE_UP;
            }
          } else {
            drawAlgorithm(ins->fm.alg&algMax,fourOp?FM_ALGS_4OP_OPL:FM_ALGS_2OP_OPL,ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
          }
          kvsConfig(ins);
          break;
        }
        case DIV_INS_OPLL: {
          bool dc=fmOrigin.fms;
          bool dm=fmOrigin.ams;
          bool sus=ins->fm.alg;
          ImGui::TableNextColumn();
          ImGui::BeginDisabled(ins->fm.opllPreset!=0);
          P(CWSliderScalar(FM_NAME(FM_FB),ImGuiDataType_U8,&fmOrigin.fb,&_ZERO,&_SEVEN)); rightClickable
          ImGui::EndDisabled();
          P(CWSliderScalar(FM_NAME(FM_BLOCK),ImGuiDataType_U8,&ins->fm.block,&_ZERO,&_EIGHT,blockTxt.c_str())); rightClickable
          if (ins->fm.opllPreset!=0) {
            ins->fm.op[1].tl&=15;
            P(CWSliderScalar(_("Volume##TL"),ImGuiDataType_U8,&ins->fm.op[1].tl,&_FIFTEEN,&_ZERO)); rightClickable
          }
          ImGui::TableNextColumn();
          if (ImGui::Checkbox(FM_NAME(FM_SUS),&sus)) { PARAMETER
            ins->fm.alg=sus;
          }
          ImGui::BeginDisabled(ins->fm.opllPreset!=0);
          if (ImGui::Checkbox(FM_NAME(FM_DC),&dc)) { PARAMETER
            fmOrigin.fms=dc;
          }
          ImGui::SameLine();
          if (ImGui::Checkbox(FM_NAME(FM_DM),&dm)) { PARAMETER
            fmOrigin.ams=dm;
          }
          ImGui::EndDisabled();
          ImGui::TableNextColumn();
          if (fmPreviewOn) {
            drawFMPreview(ImVec2(ImGui::GetContentRegionAvail().x,24.0*dpiScale));
            if (!fmPreviewPaused) {
              renderFMPreview(ins,1);
              WAKE_UP;
            }
          } else {
            drawAlgorithm(0,FM_ALGS_2OP_OPL,ImVec2(ImGui::GetContentRegionAvail().x,24.0*dpiScale));
          }
          kvsConfig(ins,false);

          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);

          if (ImGui::BeginCombo("##LLPreset",_(opllInsNames[presentWhich][ins->fm.opllPreset]))) {
            if (isPresentCount>1) {
              if (ImGui::BeginTable("LLPresetList",isPresentCount)) {
                ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
                for (int i=0; i<4; i++) {
                  if (!isPresent[i]) continue;
                  ImGui::TableNextColumn();
                  ImGui::Text(_("%s name"),opllVariants[i]);
                }
                for (int i=0; i<17; i++) {
                  ImGui::TableNextRow();
                  for (int j=0; j<4; j++) {
                    if (!isPresent[j]) continue;
                    ImGui::TableNextColumn();
                    ImGui::PushID(j*17+i);
                    if (ImGui::Selectable(_(opllInsNames[j][i]))) {
                      ins->fm.opllPreset=i;
                    }
                    ImGui::PopID();
                  }
                }
                ImGui::EndTable();
              }
            } else {
              for (int i=0; i<17; i++) {
                if (ImGui::Selectable(_(opllInsNames[presentWhich][i]))) {
                  ins->fm.opllPreset=i;
                }
              }
            }
            ImGui::EndCombo();
          }
          break;
        }
        case DIV_INS_ESFM: {
          ImGui::TableNextColumn();
          P(CWSliderScalar(ESFM_LONG_NAME(ESFM_NOISE),ImGuiDataType_U8,&ins->esfm.noise,&_ZERO,&_THREE,_(esfmNoiseModeNames[ins->esfm.noise&3]))); rightClickable
          ImGui::TextUnformatted(_(esfmNoiseModeDescriptions[ins->esfm.noise&3]));
          ImGui::TableNextColumn();
          P(CWSliderScalar(FM_NAME(FM_BLOCK),ImGuiDataType_U8,&ins->fm.block,&_ZERO,&_EIGHT,blockTxt.c_str())); rightClickable
          ImGui::TableNextColumn();
          if (fmPreviewOn) {
            drawFMPreview(ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
            if (!fmPreviewPaused) {
              renderFMPreview(ins,1);
              WAKE_UP;
            }
          } else {
            drawESFMAlgorithm(ins->esfm, ImVec2(ImGui::GetContentRegionAvail().x,48.0*dpiScale));
          }
          kvsConfig(ins);
        }
        default:
          break;
      }
      ImGui::EndTable();
    }
    if (ins->type==DIV_INS_OPLL && ins->fm.opllPreset==16) {
      ImGui::Text(_("this volume slider only works in compatibility (non-drums) system."));
    }

    if (((ins->type==DIV_INS_OPLL || ins->type==DIV_INS_OPL) && ins->fm.opllPreset==16) || ins->type==DIV_INS_OPL_DRUMS) {
      ins->fm.ops=2;
      P(ImGui::Checkbox(_("Fixed frequency mode"),&ins->fm.fixedDrums));
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("when enabled, drums will be set to the specified frequencies, ignoring the note."));
      }
      if (ins->fm.fixedDrums) {
        int block=0;
        int fNum=0;
        if (ImGui::BeginTable("fixedDrumSettings",3)) {
          ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
          ImGui::TableNextColumn();
          ImGui::Text(_("Drum"));
          ImGui::TableNextColumn();
          ImGui::Text(_("Block"));
          ImGui::TableNextColumn();
          ImGui::Text(_("FreqNum"));

          DRUM_FREQ(_("Kick"),"##DBlock0","##DFreq0",ins->fm.kickFreq);
          DRUM_FREQ(_("Snare/Hi-hat"),"##DBlock1","##DFreq1",ins->fm.snareHatFreq);
          DRUM_FREQ(_("Tom/Top"),"##DBlock2","##DFreq2",ins->fm.tomTopFreq);
          ImGui::EndTable();
        }
      }
    }

    bool willDisplayOps=true;
    if (ins->type==DIV_INS_OPLL && ins->fm.opllPreset!=0) willDisplayOps=false;
    if (!willDisplayOps && ins->type==DIV_INS_OPLL) {
      // update OPLL preset preview
      if (ins->fm.opllPreset>0 && ins->fm.opllPreset<16) {
        const opll_patch_t* patchROM=NULL;

        switch (presentWhich) {
          case 1:
            patchROM=OPLL_GetPatchROM(opll_type_ymf281);
            break;
          case 2:
            patchROM=OPLL_GetPatchROM(opll_type_ym2423);
            break;
          case 3:
            patchROM=OPLL_GetPatchROM(opll_type_ds1001);
            break;
          default:
            patchROM=OPLL_GetPatchROM(opll_type_ym2413);
            break;
        }

        const opll_patch_t* patch=&patchROM[ins->fm.opllPreset-1];

        opllPreview.alg=ins->fm.alg;
        opllPreview.fb=patch->fb;
        opllPreview.fms=patch->dc;
        opllPreview.ams=patch->dm;

        opllPreview.op[0].tl=patch->tl;
        opllPreview.op[1].tl=ins->fm.op[1].tl;

        for (int i=0; i<2; i++) {
          opllPreview.op[i].am=patch->am[i];
          opllPreview.op[i].vib=patch->vib[i];
          opllPreview.op[i].ssgEnv=patch->et[i]?8:0;
          opllPreview.op[i].ksr=patch->ksr[i];
          opllPreview.op[i].ksl=patch->ksl[i];
          opllPreview.op[i].mult=patch->multi[i];
          opllPreview.op[i].ar=patch->ar[i];
          opllPreview.op[i].dr=patch->dr[i];
          opllPreview.op[i].sl=patch->sl[i];
          opllPreview.op[i].rr=patch->rr[i];
        }
      }
    }

    ImGui::BeginDisabled(!willDisplayOps);
    if (settings.fmLayout==0 || settings.fmLayout==7) {
      int numCols=15;
      if (ins->type==DIV_INS_OPL ||ins->type==DIV_INS_OPL_DRUMS) numCols=13;
      if (ins->type==DIV_INS_OPLL) numCols=12;
      if (ins->type==DIV_INS_OPZ) numCols=19;
      if (ins->type==DIV_INS_ESFM) numCols=19;
      if (ImGui::BeginTable("FMOperators",numCols,ImGuiTableFlags_SizingStretchProp|ImGuiTableFlags_BordersH|ImGuiTableFlags_BordersOuterV)) {
        // configure columns
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed); // op name
        if (ins->type==DIV_INS_ESFM) {
          ImGui::TableSetupColumn("c0e0",ImGuiTableColumnFlags_WidthStretch,0.05f); // outLvl
          ImGui::TableSetupColumn("c0e1",ImGuiTableColumnFlags_WidthFixed); // -separator-
          ImGui::TableSetupColumn("c0e2",ImGuiTableColumnFlags_WidthStretch,0.05f); // delay
        }
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.05f); // ar
        ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,0.05f); // dr
        if (settings.susPosition==0) {
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.05f); // sl
        }
        if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
          ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthStretch,0.05f); // d2r
        }
        ImGui::TableSetupColumn("c5",ImGuiTableColumnFlags_WidthStretch,0.05f); // rr
        if (settings.susPosition==1) {
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.05f); // sl
        }
        ImGui::TableSetupColumn("c6",ImGuiTableColumnFlags_WidthFixed); // -separator-
        if (settings.susPosition==2) {
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.05f); // sl
        }
        ImGui::TableSetupColumn("c7",ImGuiTableColumnFlags_WidthStretch,0.05f); // tl
        if (settings.susPosition==3) {
          ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthStretch,0.05f); // sl
        }
        ImGui::TableSetupColumn("c8",ImGuiTableColumnFlags_WidthStretch,0.05f); // rs/ksl
        if (ins->type==DIV_INS_OPZ) {
          ImGui::TableSetupColumn("c8z0",ImGuiTableColumnFlags_WidthStretch,0.05f); // egs
          ImGui::TableSetupColumn("c8z1",ImGuiTableColumnFlags_WidthStretch,0.05f); // rev
        }
        if (ins->type==DIV_INS_ESFM) {
          ImGui::TableSetupColumn("c8e0",ImGuiTableColumnFlags_WidthStretch,0.05f); // outLvl
        }
        ImGui::TableSetupColumn("c9",ImGuiTableColumnFlags_WidthStretch,0.05f); // mult

        if (ins->type==DIV_INS_OPZ) {
          ImGui::TableSetupColumn("c9z",ImGuiTableColumnFlags_WidthStretch,0.05f); // fine
        }

        if (ins->type==DIV_INS_ESFM) {
          ImGui::TableSetupColumn("c9e",ImGuiTableColumnFlags_WidthStretch,0.05f); // ct
        }

        if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM || ins->type==DIV_INS_ESFM) {
          ImGui::TableSetupColumn("c10",ImGuiTableColumnFlags_WidthStretch,0.05f); // dt
        }
        if (ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
          ImGui::TableSetupColumn("c11",ImGuiTableColumnFlags_WidthStretch,0.05f); // dt2
        }
        ImGui::TableSetupColumn("c15",ImGuiTableColumnFlags_WidthFixed); // am

        ImGui::TableSetupColumn("c12",ImGuiTableColumnFlags_WidthFixed); // -separator-
        if (ins->type!=DIV_INS_OPLL && ins->type!=DIV_INS_OPM) {
          ImGui::TableSetupColumn("c13",ImGuiTableColumnFlags_WidthStretch,0.2f); // ssg/waveform
        }
        ImGui::TableSetupColumn("c14",ImGuiTableColumnFlags_WidthStretch,0.3f); // env

        float sliderHeight=((ImGui::GetContentRegionAvail().y-ImGui::GetFrameHeightWithSpacing()*(settings.fmLayout==7?4.0f:1.0f))/opCount)-ImGui::GetStyle().ItemSpacing.y;

        // header
        if (settings.fmLayout==0) {
          insTabFMModernHeader(ins);
        }

        // main view
        for (int i=0; i<opCount; i++) {
          DivInstrumentFM::Operator& op=fmOrigin.op[(opCount==4 && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_ESFM)?opOrder[i]:i];
          DivInstrumentESFM::Operator& opE=ins->esfm.op[i];

          // modern with more labels
          if (settings.fmLayout==7) {
            insTabFMModernHeader(ins);
          }

          ImGui::TableNextRow();
          ImGui::TableNextColumn();

          // push colors
          if (settings.separateFMColors) {
            bool mod=true;
            if (ins->type==DIV_INS_OPL_DRUMS) {
              mod=false;
            } else if (ins->type==DIV_INS_ESFM) {
              // this is the same as the KVS heuristic in platform/esfm.h
              if (opE.outLvl==7) {
                mod=false;
              } else if (opE.outLvl>0) {
                if (i==3) {
                  mod=false;
                } else {
                  DivInstrumentESFM::Operator& opENext=ins->esfm.op[i+1];
                  if (opENext.modIn==0) {
                    mod=false;
                  } else if ((opE.outLvl-opENext.modIn)>=2) {
                    mod=false;
                  }
                }
              }
            } else if (opCount==4) {
              if (ins->type==DIV_INS_OPL) {
                if (opIsOutputOPL[fmOrigin.alg&3][i]) mod=false;
              } else {
                if (opIsOutput[fmOrigin.alg&7][i]) mod=false;
              }
            } else {
              if (i==1 || (ins->type==DIV_INS_OPL && (fmOrigin.alg&1))) mod=false;
            }
            if (mod) {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_MOD],
                uiColors[GUI_COLOR_FM_SECONDARY_MOD],
                uiColors[GUI_COLOR_FM_BORDER_MOD],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_MOD]
              );
            } else {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_CAR],
                uiColors[GUI_COLOR_FM_SECONDARY_CAR],
                uiColors[GUI_COLOR_FM_BORDER_CAR],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_CAR]
              );
            }
          }

          if (i==0) {
            float sliderMinHeightOPL=ImGui::GetFrameHeight()*4.0+ImGui::GetStyle().ItemSpacing.y*3.0;
            float sliderMinHeightESFM=ImGui::GetFrameHeight()*5.0+ImGui::GetStyle().ItemSpacing.y*4.0;
            if ((ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPLL) && sliderHeight<sliderMinHeightOPL) {
              sliderHeight=sliderMinHeightOPL;
            }
            if (ins->type==DIV_INS_ESFM && sliderHeight<sliderMinHeightESFM) {
              sliderHeight=sliderMinHeightESFM;
            }
          }

          ImGui::PushID(fmt::sprintf("op%d",i).c_str());
          String opNameLabel;
          if (ins->type==DIV_INS_OPL_DRUMS) {
            opNameLabel=fmt::sprintf("%s",oplDrumNames[i]);
          } else if (ins->type==DIV_INS_OPL && fmOrigin.opllPreset==16) {
            if (i==1) {
              opNameLabel=_("Kick");
            } else {
              opNameLabel=_("Env");
            }
          } else {
            opNameLabel=fmt::sprintf("OP%d",i+1);
          }
          if (opsAreMutable) {
            pushToggleColors(op.enable);
            if (ImGui::Button(opNameLabel.c_str())) {
              op.enable=!op.enable;
              PARAMETER;
            }
            popToggleColors();
          } else {
            ImGui::TextUnformatted(opNameLabel.c_str());
          }

          // drag point
          OP_DRAG_POINT;

          int maxTl=127;
          if (ins->type==DIV_INS_OPLL) {
            if (i==1) {
              maxTl=15;
            } else {
              maxTl=63;
            }
          }
          if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
            maxTl=63;
          }
          int maxArDr=(ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM)?31:15;
          bool ssgOn=op.ssgEnv&8;
          bool ksrOn=op.ksr;
          bool vibOn=op.vib;
          bool susOn=op.sus;
          bool fixedOn=opE.fixed;
          unsigned char ssgEnv=op.ssgEnv&7;

          if (ins->type==DIV_INS_ESFM) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##MODIN",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&opE.modIn,&_ZERO,&_SEVEN)); rightClickable
            ImGui::TableNextColumn();
            ImGui::Dummy(ImVec2(4.0f*dpiScale,2.0f*dpiScale));
            ImGui::TableNextColumn();
            opE.delay&=7;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##DELAY",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&opE.delay,&_ZERO,&_SEVEN)); rightClickable
          }

          ImGui::TableNextColumn();
          op.ar&=maxArDr;
          CENTER_VSLIDER;
          P(CWVSliderScalar("##AR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.ar,&maxArDr,&_ZERO)); rightClickable

          ImGui::TableNextColumn();
          op.dr&=maxArDr;
          CENTER_VSLIDER;
          P(CWVSliderScalar("##DR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.dr,&maxArDr,&_ZERO)); rightClickable

          if (settings.susPosition==0) {
            ImGui::TableNextColumn();
            op.sl&=15;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
          }

          if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
            ImGui::TableNextColumn();
            op.d2r&=31;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##D2R",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.d2r,&_THIRTY_ONE,&_ZERO)); rightClickable
          }

          ImGui::TableNextColumn();
          op.rr&=15;
          CENTER_VSLIDER;
          P(CWVSliderScalar("##RR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.rr,&_FIFTEEN,&_ZERO)); rightClickable

          if (settings.susPosition==1) {
            ImGui::TableNextColumn();
            op.sl&=15;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
          }

          ImGui::TableNextColumn();
          ImGui::Dummy(ImVec2(4.0f*dpiScale,2.0f*dpiScale));

          if (settings.susPosition==2) {
            ImGui::TableNextColumn();
            op.sl&=15;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
          }

          ImGui::TableNextColumn();
          op.tl&=maxTl;
          CENTER_VSLIDER;
          P(CWVSliderScalar("##TL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.tl,&maxTl,&_ZERO)); rightClickable

          if (settings.susPosition==3) {
            ImGui::TableNextColumn();
            op.sl&=15;
            CENTER_VSLIDER;
            P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
          }

          ImGui::TableNextColumn();
          CENTER_VSLIDER;
          if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
            P(CWVSliderScalar("##RS",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.rs,&_ZERO,&_THREE)); rightClickable
          } else {
            int ksl=ins->type==DIV_INS_OPLL?op.ksl:kslMap[op.ksl&3];
            if (CWVSliderInt("##KSL",ImVec2(20.0f*dpiScale,sliderHeight),&ksl,0,3)) {
              op.ksl=(ins->type==DIV_INS_OPLL?ksl:kslMap[ksl&3]);
              PARAMETER;
            } rightClickable
          }

          if (ins->type==DIV_INS_OPZ) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##EGS",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.ksl,&_ZERO,&_THREE)); rightClickable

            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##REV",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.dam,&_ZERO,&_SEVEN)); rightClickable
          }

          if (ins->type==DIV_INS_ESFM) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##OUTLVL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&opE.outLvl,&_ZERO,&_SEVEN)); rightClickable
          }

          ImGui::TableNextColumn();
          pushWarningColor(ins->type==DIV_INS_OPL_DRUMS && i==0);
          CENTER_VSLIDER;
          P(CWVSliderScalar("##MULT",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN)); rightClickable
          if (ins->type==DIV_INS_OPL_DRUMS && i==0) {
            if (ImGui::IsItemHovered()) {
              ImGui::SetTooltip("%s",_("Snare's multiplier is determined by HiHat's."));
            }
          }
          popWarningColor();

          if (ins->type==DIV_INS_OPZ) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            bool egtOn=op.egt;
            if (!egtOn) {
              P(CWVSliderScalar("##FINE",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.dvb,&_ZERO,&_FIFTEEN)); rightClickable
            }
          }

          if (ins->type==DIV_INS_ESFM) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##CT",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_S8,&opE.ct,&_MINUS_TWENTY_FOUR,&_TWENTY_FOUR)); rightClickable
          }

          if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
            int detune=detuneMap[settings.unsignedDetune?1:0][op.dt&7];
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            if (CWVSliderInt("##DT",ImVec2(20.0f*dpiScale,sliderHeight),&detune,settings.unsignedDetune?0:-3,settings.unsignedDetune?7:4)) { PARAMETER
              if (detune<-3) detune=-3;
              if (detune>7) detune=7;
              op.dt=detuneUnmap[settings.unsignedDetune?1:0][detune+3];
            } rightClickable

            if (ins->type!=DIV_INS_FM) {
              ImGui::TableNextColumn();
              CENTER_VSLIDER;
              P(CWVSliderScalar("##DT2",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.dt2,&_ZERO,&_THREE)); rightClickable
            }

            ImGui::TableNextColumn();
            bool amOn=op.am;
            if (ins->type==DIV_INS_OPZ) {
              bool egtOn=op.egt;
              bool susOn=op.sus;
              if (egtOn) {
                ImGui::SetCursorPosY(ImGui::GetCursorPosY()+0.5*(sliderHeight-ImGui::GetFrameHeight()*4.0-ImGui::GetStyle().ItemSpacing.y*3.5));
              } else {
                ImGui::SetCursorPosY(ImGui::GetCursorPosY()+0.5*(sliderHeight-ImGui::GetFrameHeight()*2.0-ImGui::GetStyle().ItemSpacing.y*1.0));
              }
              if (ImGui::Checkbox("AM",&amOn)) { PARAMETER
                op.am=amOn;
              }
              if (ImGui::Checkbox(_("Fixed"),&egtOn)) { PARAMETER
                op.egt=egtOn;
              }
              if (egtOn) {
                pushWarningColor(susOn && !e->song.compatFlags.linearPitch);
                if (ImGui::Checkbox(_("Pitch control"),&susOn)) { PARAMETER
                  op.sus=susOn;
                  // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
                  ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
                  ins->temp.vZoom[DIV_MACRO_OP_SUS+(i<<5)]=-1;
                }
                popWarningColor();
                if (ImGui::IsItemHovered()) {
                  if (susOn && !e->song.compatFlags.linearPitch) {
                    ImGui::SetTooltip(_("only works on linear pitch! go to Compatibility Flags > Pitch/Playback and set Pitch linearity to Full."));
                  } else {
                    ImGui::SetTooltip(_("use op's arpeggio and pitch macros control instead of block/f-num macros"));
                  }
                }
              }
              if (egtOn && !susOn) {
                int block=op.dt;
                int freqNum=(op.mult<<4)|(op.dvb&15);
                if (ImGui::InputInt(_("Block"),&block,1,1)) {
                  if (block<0) block=0;
                  if (block>7) block=7;
                  op.dt=block;
                }
                if (ImGui::InputInt(_("FreqNum"),&freqNum,1,16)) {
                  if (freqNum<0) freqNum=0;
                  if (freqNum>255) freqNum=255;
                  op.mult=freqNum>>4;
                  op.dvb=freqNum&15;
                }
              }
            } else {
              ImGui::SetCursorPosY(ImGui::GetCursorPosY()+0.5*(sliderHeight-ImGui::GetFrameHeight()));
              if (ImGui::Checkbox("##AM",&amOn)) { PARAMETER
                op.am=amOn;
              }
            }

            if (ins->type!=DIV_INS_OPL && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_OPZ && ins->type!=DIV_INS_OPM) {
              ImGui::TableNextColumn();
              ImGui::Dummy(ImVec2(4.0f*dpiScale,2.0f*dpiScale));
              ImGui::TableNextColumn();
              ImGui::BeginDisabled(!ssgOn);
              drawSSGEnv(op.ssgEnv&7,ImVec2(ImGui::GetContentRegionAvail().x,sliderHeight-ImGui::GetFrameHeightWithSpacing()));
              ImGui::EndDisabled();
              if (ImGui::Checkbox("##SSGOn",&ssgOn)) { PARAMETER
                op.ssgEnv=(op.ssgEnv&7)|(ssgOn<<3);
              }

              ImGui::SameLine();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              if (CWSliderScalar("##SSG",ImGuiDataType_U8,&ssgEnv,&_ZERO,&_SEVEN,_(ssgEnvTypes[ssgEnv]))) { PARAMETER
                op.ssgEnv=(op.ssgEnv&8)|(ssgEnv&7);
              }
            }
          } else if (ins->type==DIV_INS_ESFM) {
            ImGui::TableNextColumn();
            CENTER_VSLIDER;
            P(CWVSliderScalar("##DT",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_S8,&opE.dt,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable

            ImGui::TableNextColumn();
            bool amOn=op.am;
            bool leftOn=opE.left;
            bool rightOn=opE.right;

            ImGui::SetCursorPosY(ImGui::GetCursorPosY()+0.5*(sliderHeight-ImGui::GetFrameHeight()*5.0-ImGui::GetStyle().ItemSpacing.y*4.0));
            ImVec2 curPosBeforeDummy = ImGui::GetCursorPos();
            ImGui::Dummy(ImVec2(ImGui::GetFrameHeightWithSpacing()*2.0f+ImGui::CalcTextSize(FM_SHORT_NAME(FM_DAM)).x*2.0f,1.0f));
            ImGui::SetCursorPos(curPosBeforeDummy);

            if (ImGui::BeginTable("panCheckboxes",(fixedOn)?3:2,ImGuiTableFlags_SizingStretchProp)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,1.0);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,1.0);
              if (fixedOn) {
                ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,1.2);
              }

              float yCoordBeforeTablePadding=ImGui::GetCursorPosY();
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetCursorPosY(yCoordBeforeTablePadding);
              if (ImGui::Checkbox(ESFM_SHORT_NAME(ESFM_LEFT),&leftOn)) { PARAMETER
                opE.left=leftOn;
              }
              ImGui::TableNextColumn();
              ImGui::SetCursorPosY(yCoordBeforeTablePadding);
              if (ImGui::Checkbox(ESFM_SHORT_NAME(ESFM_RIGHT),&rightOn)) { PARAMETER
                opE.right=rightOn;
              }
              if (fixedOn) {
                ImGui::TableNextColumn();
                ImGui::SetCursorPosY(yCoordBeforeTablePadding);
                if (ImGui::Checkbox(FM_SHORT_NAME(FM_AM),&amOn)) { PARAMETER
                  op.am=amOn;
                }
              }
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              if (ImGui::Checkbox(FM_SHORT_NAME(FM_KSR),&ksrOn)) { PARAMETER
                op.ksr=ksrOn;
              }
              ImGui::TableNextColumn();
              if (ImGui::Checkbox(FM_SHORT_NAME(FM_SUS),&susOn)) { PARAMETER
                op.sus=susOn;
              }
              if (fixedOn) {
                bool damOn=op.dam;
                ImGui::TableNextColumn();
                if (ImGui::Checkbox(FM_SHORT_NAME(FM_DAM),&damOn)) { PARAMETER
                  op.dam=damOn;
                }
              }
              ImGui::EndTable();
            }
            ImGui::SetCursorPosY(ImGui::GetCursorPosY()-0.5*ImGui::GetStyle().ItemSpacing.y);
            if (ImGui::Checkbox(ESFM_NAME(ESFM_FIXED),&fixedOn)) { PARAMETER
              opE.fixed=fixedOn;
              // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
              ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
              ins->temp.vZoom[DIV_MACRO_OP_DT+(i<<5)]=-1;
            }
            if (ins->type==DIV_INS_ESFM) {
              if (fixedOn) {
                int block=(opE.ct>>2)&7;
                int freqNum=((opE.ct&3)<<8)|((unsigned char)opE.dt);
                if (ImGui::InputInt(_("Block"),&block,1,1)) {
                  if (block<0) block=0;
                  if (block>7) block=7;
                  opE.ct=(opE.ct&(~(7<<2)))|(block<<2);
                }
                if (ImGui::InputInt(_("FreqNum"),&freqNum,1,16)) {
                  if (freqNum<0) freqNum=0;
                  if (freqNum>1023) freqNum=1023;
                  opE.dt=freqNum&0xff;
                  opE.ct=(opE.ct&(~3))|(freqNum>>8);
                }
              } else {
                if (ImGui::BeginTable("amVibCheckboxes",2,ImGuiTableFlags_SizingStretchSame)) {
                  ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0);
                  ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0);

                  float yCoordBeforeTablePadding=ImGui::GetCursorPosY();
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yCoordBeforeTablePadding);
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_AM),&amOn)) { PARAMETER
                    op.am=amOn;
                  }
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yCoordBeforeTablePadding);
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_VIB),&vibOn)) { PARAMETER
                    op.vib=vibOn;
                  }
                  bool damOn=op.dam;
                  bool dvbOn=op.dvb;
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_DAM),&damOn)) { PARAMETER
                    op.dam=damOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_DVB),&dvbOn)) { PARAMETER
                    op.dvb=dvbOn;
                  }
                  ImGui::EndTable();
                }
              }
            }
          } else if (ins->type!=DIV_INS_OPM) {
            ImGui::TableNextColumn();
            bool amOn=op.am;
            ImGui::SetCursorPosY(ImGui::GetCursorPosY()+0.5*(sliderHeight-ImGui::GetFrameHeight()*4.0-ImGui::GetStyle().ItemSpacing.y*3.0));
            if (ImGui::Checkbox(FM_NAME(FM_AM),&amOn)) { PARAMETER
              op.am=amOn;
            }
            if (ImGui::Checkbox(FM_NAME(FM_VIB),&vibOn)) { PARAMETER
              op.vib=vibOn;
            }
            if (ImGui::Checkbox(FM_NAME(FM_KSR),&ksrOn)) { PARAMETER
              op.ksr=ksrOn;
            }
            if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) {
              if (ImGui::Checkbox(FM_NAME(FM_SUS),&susOn)) { PARAMETER
                op.sus=susOn;
              }
            } else if (ins->type==DIV_INS_OPLL) {
              if (ImGui::Checkbox(FM_NAME(FM_EGS),&ssgOn)) { PARAMETER
                op.ssgEnv=(op.ssgEnv&7)|(ssgOn<<3);
              }
            }
          }

          if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_ESFM) {
            ImGui::TableNextColumn();
            ImGui::Dummy(ImVec2(4.0f*dpiScale,2.0f*dpiScale));
            ImGui::TableNextColumn();

            drawWaveform(op.ws&7,ins->type==DIV_INS_OPZ,ImVec2(ImGui::GetContentRegionAvail().x,sliderHeight-ImGui::GetFrameHeightWithSpacing()*((ins->type==DIV_INS_ESFM && fixedOn)?3.0f:1.0f)));
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            P(CWSliderScalar("##WS",ImGuiDataType_U8,&op.ws,&_ZERO,&_SEVEN,(ins->type==DIV_INS_OPZ)?opzWaveforms[op.ws&7]:(settings.oplStandardWaveNames?oplWaveformsStandard[op.ws&7]:oplWaveforms[op.ws&7]))); rightClickable
            if ((ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) && ImGui::IsItemHovered()) {
              ImGui::SetTooltip(_("OPL2/3/4 only (last 4 waveforms are OPL3/4 only)"));
            }
            if (ins->type==DIV_INS_ESFM && fixedOn) {
              if (ImGui::Checkbox(FM_SHORT_NAME(FM_VIB),&vibOn)) { PARAMETER
                op.vib=vibOn;
              }
              bool dvbOn=op.dvb;
              if (ImGui::Checkbox(FM_SHORT_NAME(FM_DVB),&dvbOn)) { PARAMETER
                op.dvb=dvbOn;
              }
            }
          } else if (ins->type==DIV_INS_OPLL || ins->type==DIV_INS_OPM) {
            ImGui::TableNextColumn();
            ImGui::Dummy(ImVec2(4.0f*dpiScale,2.0f*dpiScale));
          }

          ImGui::TableNextColumn();
          drawFMEnv(op.tl&maxTl,op.ar&maxArDr,op.dr&maxArDr,(ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPLL || ins->type==DIV_INS_ESFM)?((op.rr&15)*2):op.d2r&31,op.rr&15,op.sl&15,op.sus,op.ssgEnv&8,fmOrigin.alg,maxTl,maxArDr,15,ImVec2(ImGui::GetContentRegionAvail().x,sliderHeight),ins->type);

          if (settings.separateFMColors) {
            popAccentColors();
          }

          ImGui::PopID();
        }

        ImGui::EndTable();
      }
    } else if (settings.fmLayout>=4 && settings.fmLayout<=6) { // alternate
      int columns=2;
      switch (settings.fmLayout) {
        case 4: // 2x2
          columns=2;
          break;
        case 5: // 1x4
          columns=1;
          break;
        case 6: // 4x1
          columns=opCount;
          break;
      }
      char tempID[1024];
      ImVec2 oldPadding=ImGui::GetStyle().CellPadding;
      ImGui::PushStyleVar(ImGuiStyleVar_CellPadding,ImVec2(8.0f*dpiScale,4.0f*dpiScale));
      if (ImGui::BeginTable("AltFMOperators",columns,ImGuiTableFlags_SizingStretchSame|ImGuiTableFlags_BordersInner)) {
        for (int i=0; i<opCount; i++) {
          DivInstrumentFM::Operator& op=fmOrigin.op[(opCount==4 && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_ESFM)?opOrder[i]:i];
          DivInstrumentESFM::Operator& opE=ins->esfm.op[i];
          if ((settings.fmLayout!=6 && ((i+1)&1)) || i==0 || settings.fmLayout==5) ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::PushID(fmt::sprintf("op%d",i).c_str());

          // push colors
          if (settings.separateFMColors) {
            bool mod=true;
            if (ins->type==DIV_INS_OPL_DRUMS) {
              mod=false;
            } else if (ins->type==DIV_INS_ESFM) {
              // this is the same as the KVS heuristic in platform/esfm.h
              if (opE.outLvl==7) mod=false;
              else if (opE.outLvl>0) {
                if (i==3) mod=false;
                else {
                  DivInstrumentESFM::Operator& opENext=ins->esfm.op[i+1];
                  if (opENext.modIn==0) mod=false;
                  else if ((opE.outLvl-opENext.modIn)>=2) mod=false;
                }
              }
            } else if (opCount==4) {
              if (ins->type==DIV_INS_OPL) {
                if (opIsOutputOPL[fmOrigin.alg&3][i]) mod=false;
              } else {
                if (opIsOutput[fmOrigin.alg&7][i]) mod=false;
              }
            } else {
              if (i==1 || (ins->type==DIV_INS_OPL && (fmOrigin.alg&1))) mod=false;
            }
            if (mod) {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_MOD],
                uiColors[GUI_COLOR_FM_SECONDARY_MOD],
                uiColors[GUI_COLOR_FM_BORDER_MOD],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_MOD]
              );
            } else {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_CAR],
                uiColors[GUI_COLOR_FM_SECONDARY_CAR],
                uiColors[GUI_COLOR_FM_BORDER_CAR],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_CAR]
              );
            }
          }

          ImGui::Dummy(ImVec2(dpiScale,dpiScale));
          if (ins->type==DIV_INS_OPL_DRUMS) {
            snprintf(tempID,1024,"%s",oplDrumNames[i]);
          } else if (ins->type==DIV_INS_OPL && fmOrigin.opllPreset==16) {
            if (i==1) {
              snprintf(tempID,1024,_("Envelope 2 (kick only)"));
            } else {
              snprintf(tempID,1024,_("Envelope"));
            }
          } else {
            snprintf(tempID,1024,_("Operator %d"),i+1);
          }
          float nextCursorPosX=ImGui::GetCursorPosX()+0.5*(ImGui::GetContentRegionAvail().x-ImGui::CalcTextSize(tempID).x-(opsAreMutable?(ImGui::GetStyle().FramePadding.x*2.0f):0.0f));
          OP_DRAG_POINT;
          ImGui::SameLine();
          ImGui::SetCursorPosX(nextCursorPosX);
          if (opsAreMutable) {
            pushToggleColors(op.enable);
            if (ImGui::Button(tempID)) {
              op.enable=!op.enable;
              PARAMETER;
            }
            popToggleColors();
          } else {
            ImGui::TextUnformatted(tempID);
          }

          float sliderHeight=200.0f*dpiScale;
          float waveWidth=140.0*dpiScale*((ins->type==DIV_INS_ESFM)?0.85f:1.0f);
          float waveHeight=sliderHeight-ImGui::GetFrameHeightWithSpacing()*((ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPL || ins->type==DIV_INS_ESFM)?5.0f:4.5f);

          int maxTl=127;
          if (ins->type==DIV_INS_OPLL) {
            if (i==1) {
              maxTl=15;
            } else {
              maxTl=63;
            }
          }
          if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
            maxTl=63;
          }
          int maxArDr=(ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM)?31:15;

          bool ssgOn=op.ssgEnv&8;
          bool ksrOn=op.ksr;
          bool vibOn=op.vib;
          bool egtOn=op.egt;
          bool susOn=op.sus; // yawn
          unsigned char ssgEnv=op.ssgEnv&7;

          ImGui::PushStyleVar(ImGuiStyleVar_CellPadding,oldPadding);
          if (ImGui::BeginTable("opParams",4,ImGuiTableFlags_BordersInnerV)) {
            ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
            ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,waveWidth);
            ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch);
            ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed);

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            float textY=ImGui::GetCursorPosY();
            if (ins->type==DIV_INS_ESFM) {
              CENTER_TEXT_20(ESFM_SHORT_NAME(ESFM_DELAY));
              ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_DELAY));
              TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_DELAY));
            } else {
              CENTER_TEXT_20(FM_SHORT_NAME(FM_AR));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_AR));
              TOOLTIP_TEXT(FM_NAME(FM_AR));
            }
            ImGui::TableNextColumn();
            if (ins->type==DIV_INS_FM) {
              ImGui::Text(_("SSG-EG"));
            } else if (ins->type!=DIV_INS_OPM) {
              ImGui::Text(_("Waveform"));
            }
            ImGui::TableNextColumn();
            ImGui::Text(_("Envelope"));
            ImGui::TableNextColumn();

            // A/D/S/R
            ImGui::TableNextColumn();

            if (ins->type==DIV_INS_ESFM) {
              opE.delay&=7;
              P(CWVSliderScalar("##DELAY",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&opE.delay,&_ZERO,&_SEVEN)); rightClickable
              ImGui::SameLine();
            }

            op.ar&=maxArDr;
            float textX_AR=ImGui::GetCursorPosX();
            P(CWVSliderScalar("##AR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.ar,&maxArDr,&_ZERO)); rightClickable

            ImGui::SameLine();
            op.dr&=maxArDr;
            float textX_DR=ImGui::GetCursorPosX();
            P(CWVSliderScalar("##DR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.dr,&maxArDr,&_ZERO)); rightClickable

            float textX_SL=0.0f;
            if (settings.susPosition==0) {
              ImGui::SameLine();
              op.sl&=15;
              textX_SL=ImGui::GetCursorPosX();
              P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
            }

            float textX_D2R=0.0f;
            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
              ImGui::SameLine();
              op.d2r&=31;
              textX_D2R=ImGui::GetCursorPosX();
              P(CWVSliderScalar("##D2R",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.d2r,&_THIRTY_ONE,&_ZERO)); rightClickable
            }

            ImGui::SameLine();
            op.rr&=15;
            float textX_RR=ImGui::GetCursorPosX();
            P(CWVSliderScalar("##RR",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.rr,&_FIFTEEN,&_ZERO)); rightClickable

            if (settings.susPosition>0) {
              ImGui::SameLine();
              op.sl&=15;
              textX_SL=ImGui::GetCursorPosX();
              P(CWVSliderScalar("##SL",ImVec2(20.0f*dpiScale,sliderHeight),ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
            }

            ImVec2 prevCurPos=ImGui::GetCursorPos();

            // labels
            if (ins->type==DIV_INS_ESFM) {
              ImGui::SetCursorPos(ImVec2(textX_AR,textY));
              CENTER_TEXT_20(FM_SHORT_NAME(FM_AR));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_AR));
              TOOLTIP_TEXT(FM_NAME(FM_AR));
            }

            ImGui::SetCursorPos(ImVec2(textX_DR,textY));
            CENTER_TEXT_20(FM_SHORT_NAME(FM_DR));
            ImGui::TextUnformatted(FM_SHORT_NAME(FM_DR));
            TOOLTIP_TEXT(FM_NAME(FM_DR));

            ImGui::SetCursorPos(ImVec2(textX_SL,textY));
            CENTER_TEXT_20(FM_SHORT_NAME(FM_SL));
            ImGui::TextUnformatted(FM_SHORT_NAME(FM_SL));
            TOOLTIP_TEXT(FM_NAME(FM_SL));

            ImGui::SetCursorPos(ImVec2(textX_RR,textY));
            CENTER_TEXT_20(FM_SHORT_NAME(FM_RR));
            ImGui::TextUnformatted(FM_SHORT_NAME(FM_RR));
            TOOLTIP_TEXT(FM_NAME(FM_RR));

            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
              ImGui::SetCursorPos(ImVec2(textX_D2R,textY));
              CENTER_TEXT_20(FM_SHORT_NAME(FM_D2R));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_D2R));
              TOOLTIP_TEXT(FM_NAME(FM_D2R));
            }

            ImGui::SetCursorPos(prevCurPos);
            
            ImGui::TableNextColumn();
            switch (ins->type) {
              case DIV_INS_FM: {
                // SSG
                ImGui::BeginDisabled(!ssgOn);
                drawSSGEnv(op.ssgEnv&7,ImVec2(waveWidth,waveHeight));
                ImGui::EndDisabled();
                if (ImGui::Checkbox("##SSGOn",&ssgOn)) { PARAMETER
                  op.ssgEnv=(op.ssgEnv&7)|(ssgOn<<3);
                }

                ImGui::SameLine();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (CWSliderScalar("##SSG",ImGuiDataType_U8,&ssgEnv,&_ZERO,&_SEVEN,_(ssgEnvTypes[ssgEnv]))) { PARAMETER
                  op.ssgEnv=(op.ssgEnv&8)|(ssgEnv&7);
                }
                
                // params
                ImGui::Separator();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable

                int detune=detuneMap[settings.unsignedDetune?1:0][op.dt&7];
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_DT));
                if (CWSliderInt("##DT",&detune,settings.unsignedDetune?0:-3,settings.unsignedDetune?7:4,tempID)) { PARAMETER
                  if (detune<-3) detune=-3;
                  if (detune>7) detune=7;
                  op.dt=detuneUnmap[settings.unsignedDetune?1:0][detune+3];
                } rightClickable

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_RS));
                P(CWSliderScalar("##RS",ImGuiDataType_U8,&op.rs,&_ZERO,&_THREE,tempID)); rightClickable

                break;
              }
              case DIV_INS_OPM: {
                // params
                ImGui::Separator();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable

                int detune=detuneMap[settings.unsignedDetune?1:0][op.dt&7];
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_DT));
                if (CWSliderInt("##DT",&detune,settings.unsignedDetune?0:-3,settings.unsignedDetune?7:4,tempID)) { PARAMETER
                  if (detune<-3) detune=-3;
                  if (detune>7) detune=7;
                  op.dt=detuneUnmap[settings.unsignedDetune?1:0][detune+3];
                } rightClickable

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_DT2));
                P(CWSliderScalar("##DT2",ImGuiDataType_U8,&op.dt2,&_ZERO,&_THREE,tempID)); rightClickable

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_RS));
                P(CWSliderScalar("##RS",ImGuiDataType_U8,&op.rs,&_ZERO,&_THREE,tempID)); rightClickable
                break;
              }
              case DIV_INS_OPLL:
                // waveform
                drawWaveform(i==0?(fmOrigin.ams&1):(fmOrigin.fms&1),ins->type==DIV_INS_OPZ,ImVec2(waveWidth,waveHeight));

                // params
                ImGui::Separator();
                if (ImGui::BeginTable("FMParamsInner",2)) {
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  bool amOn=op.am;
                  if (ImGui::Checkbox(FM_NAME(FM_AM),&amOn)) { PARAMETER
                    op.am=amOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_KSR),&ksrOn)) { PARAMETER
                    op.ksr=ksrOn;
                  }

                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_VIB),&vibOn)) { PARAMETER
                    op.vib=vibOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_EGS),&ssgOn)) { PARAMETER
                    op.ssgEnv=(op.ssgEnv&7)|(ssgOn<<3);
                  }
                  
                  ImGui::EndTable();
                }

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_KSL));
                P(CWSliderScalar("##KSL",ImGuiDataType_U8,&op.ksl,&_ZERO,&_THREE,tempID)); rightClickable

                break;
              case DIV_INS_OPL:
              case DIV_INS_OPL_DRUMS: {
                // waveform
                drawWaveform(op.ws&7,ins->type==DIV_INS_OPZ,ImVec2(waveWidth,waveHeight));
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##WS",ImGuiDataType_U8,&op.ws,&_ZERO,&_SEVEN,(ins->type==DIV_INS_OPZ)?opzWaveforms[op.ws&7]:(settings.oplStandardWaveNames?oplWaveformsStandard[op.ws&7]:oplWaveforms[op.ws&7]))); rightClickable
                if ((ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) && ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("OPL2/3/4 only (last 4 waveforms are OPL3/4 only)"));
                }

                // params
                ImGui::Separator();
                if (ImGui::BeginTable("FMParamsInner",2)) {
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  bool amOn=op.am;
                  if (ImGui::Checkbox(FM_NAME(FM_AM),&amOn)) { PARAMETER
                    op.am=amOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_KSR),&ksrOn)) { PARAMETER
                    op.ksr=ksrOn;
                  }

                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_VIB),&vibOn)) { PARAMETER
                    op.vib=vibOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_NAME(FM_SUS),&susOn)) { PARAMETER
                    op.sus=susOn;
                  }
                  
                  ImGui::EndTable();
                }

                pushWarningColor(ins->type==DIV_INS_OPL_DRUMS && i==0);          
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable
                if (ins->type==DIV_INS_OPL_DRUMS && i==0) {
                  if (ImGui::IsItemHovered()) {
                    ImGui::SetTooltip("%s",_("Snare's multiplier is determined by HiHat's."));
                  }
                }
                popWarningColor();

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_KSL));
                int ksl=kslMap[op.ksl&3];
                if (CWSliderInt("##KSL",&ksl,0,3,tempID)) {
                  op.ksl=kslMap[ksl&3];
                  PARAMETER;
                } rightClickable

                break;
              }
              case DIV_INS_OPZ: {
                // waveform
                drawWaveform(op.ws&7,ins->type==DIV_INS_OPZ,ImVec2(waveWidth,waveHeight));
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##WS",ImGuiDataType_U8,&op.ws,&_ZERO,&_SEVEN,(ins->type==DIV_INS_OPZ)?opzWaveforms[op.ws&7]:(settings.oplStandardWaveNames?oplWaveformsStandard[op.ws&7]:oplWaveforms[op.ws&7]))); rightClickable
                if ((ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) && ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("OPL2/3/4 only (last 4 waveforms are OPL3/4 only)"));
                }

                // params
                ImGui::Separator();
                if (egtOn) {
                  if (!op.sus) {
                    int block=op.dt;
                    int freqNum=(op.mult<<4)|(op.dvb&15);
                    ImGui::Text(_("Block"));
                    ImGui::SameLine();
                    ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                    ImVec2 cursorAlign=ImGui::GetCursorPos();
                    if (ImGui::InputInt("##Block",&block,1,1)) {
                      if (block<0) block=0;
                      if (block>7) block=7;
                      op.dt=block;
                    }
                    
                    ImGui::Text(_("Freq"));
                    ImGui::SameLine();
                    ImGui::SetCursorPos(ImVec2(cursorAlign.x,ImGui::GetCursorPosY()));
                    ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                    if (ImGui::InputInt("##FreqNum",&freqNum,1,16)) {
                      if (freqNum<0) freqNum=0;
                      if (freqNum>255) freqNum=255;
                      op.mult=freqNum>>4;
                      op.dvb=freqNum&15;
                    }
                  }
                } else {
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                  P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable

                  int detune=detuneMap[settings.unsignedDetune?1:0][op.dt&7];
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_DT));
                  if (CWSliderInt("##DT",&detune,settings.unsignedDetune?0:-3,settings.unsignedDetune?7:4,tempID)) { PARAMETER
                    if (detune<-3) detune=-3;
                    if (detune>7) detune=7;
                    op.dt=detuneUnmap[settings.unsignedDetune?1:0][detune+3];
                  } rightClickable
                }

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_DT2));
                P(CWSliderScalar("##DT2",ImGuiDataType_U8,&op.dt2,&_ZERO,&_THREE,tempID)); rightClickable
                if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Only on YM2151 and YM2414 (OPM and OPZ)"));
                }

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_RS));
                P(CWSliderScalar("##RS",ImGuiDataType_U8,&op.rs,&_ZERO,&_THREE,tempID)); rightClickable
                break;
              }
              case DIV_INS_ESFM:
                // waveform
                drawWaveform(op.ws&7,ins->type==DIV_INS_OPZ,ImVec2(waveWidth,waveHeight));
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##WS",ImGuiDataType_U8,&op.ws,&_ZERO,&_SEVEN,(ins->type==DIV_INS_OPZ)?opzWaveforms[op.ws&7]:(settings.oplStandardWaveNames?oplWaveformsStandard[op.ws&7]:oplWaveforms[op.ws&7]))); rightClickable

                // params
                ImGui::Separator();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_MULT));
                P(CWSliderScalar("##MULT",ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN,tempID)); rightClickable

                if (opE.fixed) {
                  int block=(opE.ct>>2)&7;
                  int freqNum=((opE.ct&3)<<8)|((unsigned char)opE.dt);
                  ImGui::Text(_("Blk"));
                  if (ImGui::IsItemHovered()) {
                    ImGui::SetTooltip(_("Block"));
                  }
                  ImGui::SameLine();
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  //ImVec2 cursorAlign=ImGui::GetCursorPos();
                  if (ImGui::InputInt("##Block",&block,1,1)) {
                    if (block<0) block=0;
                    if (block>7) block=7;
                    opE.ct=(opE.ct&(~(7<<2)))|(block<<2);
                  }

                  ImGui::Text(_("F"));
                  if (ImGui::IsItemHovered()) {
                    ImGui::SetTooltip(_("Frequency (F-Num)"));
                  }
                  ImGui::SameLine();
                  //ImGui::SetCursorPos(ImVec2(cursorAlign.x,ImGui::GetCursorPosY()));
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  if (ImGui::InputInt("##FreqNum",&freqNum,1,16)) {
                    if (freqNum<0) freqNum=0;
                    if (freqNum>1023) freqNum=1023;
                    opE.dt=freqNum&0xff;
                    opE.ct=(opE.ct&(~3))|(freqNum>>8);
                  }
                } else {
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  snprintf(tempID,1024,"%s: %%d",ESFM_NAME(ESFM_CT));
                  P(CWSliderScalar("##CT",ImGuiDataType_S8,&opE.ct,&_MINUS_TWENTY_FOUR,&_TWENTY_FOUR,tempID)); rightClickable

                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  snprintf(tempID,1024,"%s: %%d",ESFM_NAME(ESFM_DT));
                  P(CWSliderScalar("##DT",ImGuiDataType_S8,&opE.dt,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN,tempID)); rightClickable
                }

                if (ImGui::BeginTable("panCheckboxes",2,ImGuiTableFlags_SizingStretchSame)) {
                  ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0f);
                  ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0f);

                  float yPosOutsideTablePadding=ImGui::GetCursorPosY();
                  bool leftOn=opE.left;
                  bool rightOn=opE.right;
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yPosOutsideTablePadding);
                  if (ImGui::Checkbox(ESFM_SHORT_NAME(ESFM_LEFT),&leftOn)) { PARAMETER
                    opE.left=leftOn;
                  }
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yPosOutsideTablePadding);
                  if (ImGui::Checkbox(ESFM_SHORT_NAME(ESFM_RIGHT),&rightOn)) { PARAMETER
                    opE.right=rightOn;
                  }
                  ImGui::EndTable();
                }
                break;
              default:
                break;
            }

            ImGui::TableNextColumn();
            float envHeight=sliderHeight;//-ImGui::GetStyle().ItemSpacing.y*2.0f;
            if (ins->type==DIV_INS_OPZ) {
              envHeight-=ImGui::GetFrameHeightWithSpacing()*2.0f;
            }
            if (ins->type==DIV_INS_ESFM) {
              envHeight-=ImGui::GetFrameHeightWithSpacing()*3.0f;
            }
            drawFMEnv(op.tl&maxTl,op.ar&maxArDr,op.dr&maxArDr,(ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPLL || ins->type==DIV_INS_ESFM)?((op.rr&15)*2):op.d2r&31,op.rr&15,op.sl&15,op.sus,op.ssgEnv&8,fmOrigin.alg,maxTl,maxArDr,15,ImVec2(ImGui::GetContentRegionAvail().x,envHeight),ins->type);

            if (ins->type==DIV_INS_OPZ) {
              ImGui::Separator();
              if (ImGui::BeginTable("FMParamsInnerOPZ",2)) {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                if (!egtOn) {
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_FINE));
                  P(CWSliderScalar("##FINE",ImGuiDataType_U8,&op.dvb,&_ZERO,&_FIFTEEN,tempID)); rightClickable
                } else {
                  bool susOn=op.sus;
                  pushWarningColor(susOn && !e->song.compatFlags.linearPitch);
                  if (ImGui::Checkbox(_("Pitch control"),&susOn)) { PARAMETER
                    op.sus=susOn;
                    // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
                    ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
                    ins->temp.vZoom[DIV_MACRO_OP_SUS+(i<<5)]=-1;
                  }
                  popWarningColor();
                  if (ImGui::IsItemHovered()) {
                    if (susOn && !e->song.compatFlags.linearPitch) {
                      ImGui::SetTooltip(_("only works on linear pitch! go to Compatibility Flags > Pitch/Playback and set Pitch linearity to Full."));
                    } else {
                      ImGui::SetTooltip(_("use op's arpeggio and pitch macros control instead of block/f-num macros"));
                    }
                  }
                }

                ImGui::TableNextColumn();
                bool amOn=op.am;
                if (ImGui::Checkbox(FM_NAME(FM_AM),&amOn)) { PARAMETER
                  op.am=amOn;
                }
                ImGui::SameLine();
                if (ImGui::Checkbox(_("Fixed"),&egtOn)) { PARAMETER
                  op.egt=egtOn;
                }

                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_EGSHIFT));
                P(CWSliderScalar("##EGShift",ImGuiDataType_U8,&op.ksl,&_ZERO,&_THREE,tempID)); rightClickable

                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_REV));
                P(CWSliderScalar("##REV",ImGuiDataType_U8,&op.dam,&_ZERO,&_SEVEN,tempID)); rightClickable

                ImGui::TableNextColumn();


                ImGui::EndTable();
              }
            }

            if (ins->type==DIV_INS_ESFM) {
              ImGui::Separator();
              if (ImGui::BeginTable("FMParamsInnerESFM",2)) {
                ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.64f);
                ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.36f);
                ImGui::TableNextRow();
                ImGui::TableNextColumn();

                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                snprintf(tempID,1024,"%s: %%d",FM_NAME(FM_KSL));
                int ksl=kslMap[op.ksl&3];
                if (CWSliderInt("##KSL",&ksl,0,3,tempID)) {
                  op.ksl=kslMap[ksl&3];
                  PARAMETER;
                } rightClickable

                bool amOn=op.am;
                bool fixedOn=opE.fixed;
                ImGui::TableNextColumn();
                if (ImGui::Checkbox(FM_SHORT_NAME(FM_KSR),&ksrOn)) { PARAMETER
                  op.ksr=ksrOn;
                }
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                if (ImGui::BeginTable("vibAmCheckboxes",2)) {
                  ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0f);
                  ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0f);

                  float yPosOutsideTablePadding=ImGui::GetCursorPosY();
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yPosOutsideTablePadding);
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_VIB),&vibOn)) { PARAMETER
                    op.vib=vibOn;
                  }
                  ImGui::TableNextColumn();
                  ImGui::SetCursorPosY(yPosOutsideTablePadding);
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_AM),&amOn)) { PARAMETER
                    op.am=amOn;
                  }

                  bool damOn=op.dam;
                  bool dvbOn=op.dvb;
                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_DVB),&dvbOn)) { PARAMETER
                    op.dvb=dvbOn;
                  }
                  ImGui::TableNextColumn();
                  if (ImGui::Checkbox(FM_SHORT_NAME(FM_DAM),&damOn)) { PARAMETER
                    op.dam=damOn;
                  }
                  ImGui::EndTable();
                }
                ImGui::TableNextColumn();
                if (ImGui::Checkbox(FM_SHORT_NAME(FM_SUS),&susOn)) { PARAMETER
                  op.sus=susOn;
                }
                if (ImGui::Checkbox(ESFM_NAME(ESFM_FIXED),&fixedOn)) { PARAMETER
                  opE.fixed=fixedOn;
                  // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
                  ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
                  ins->temp.vZoom[DIV_MACRO_OP_DT+(i<<5)]=-1;
                }

                ImGui::EndTable();
              }
            }

            ImGui::TableNextColumn();
            op.tl&=maxTl;
            float tlSliderWidth=(ins->type==DIV_INS_ESFM)?20.0f*dpiScale:ImGui::GetFrameHeight();
            float tlSliderHeight=sliderHeight-((ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM)?(ImGui::GetFrameHeightWithSpacing()+ImGui::CalcTextSize(FM_SHORT_NAME(FM_AM)).y+ImGui::GetStyle().ItemSpacing.y):0.0f);
            float textX_tl=ImGui::GetCursorPosX();
            P(CWVSliderScalar("##TL",ImVec2(tlSliderWidth,tlSliderHeight),ImGuiDataType_U8,&op.tl,&maxTl,&_ZERO)); rightClickable

            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM) {
              CENTER_TEXT(FM_SHORT_NAME(FM_AM));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_AM));
              TOOLTIP_TEXT(FM_NAME(FM_AM));
              bool amOn=op.am;
              if (ImGui::Checkbox("##AM",&amOn)) { PARAMETER
                op.am=amOn;
              }
            }

            if (ins->type==DIV_INS_ESFM) {
              ImGui::SameLine();
              float textX_outLvl=ImGui::GetCursorPosX();
              P(CWVSliderScalar("##OUTLVL",ImVec2(tlSliderWidth,tlSliderHeight),ImGuiDataType_U8,&opE.outLvl,&_ZERO,&_SEVEN)); rightClickable

              ImGui::SameLine();
              float textX_modIn=ImGui::GetCursorPosX();
              P(CWVSliderScalar("##MODIN",ImVec2(tlSliderWidth,tlSliderHeight),ImGuiDataType_U8,&opE.modIn,&_ZERO,&_SEVEN)); rightClickable

              prevCurPos=ImGui::GetCursorPos();
              ImGui::SetCursorPos(ImVec2(textX_tl,textY));
              CENTER_TEXT_20(FM_SHORT_NAME(FM_TL));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_TL));
              TOOLTIP_TEXT(FM_NAME(FM_TL));

              ImGui::SetCursorPos(ImVec2(textX_outLvl,textY));
              CENTER_TEXT_20(ESFM_SHORT_NAME(ESFM_OUTLVL));
              ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_OUTLVL));
              TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_OUTLVL));

              ImGui::SetCursorPos(ImVec2(textX_modIn,textY));
              CENTER_TEXT_20(ESFM_SHORT_NAME(ESFM_MODIN));
              ImGui::TextUnformatted(ESFM_SHORT_NAME(ESFM_MODIN));
              TOOLTIP_TEXT(ESFM_LONG_NAME(ESFM_MODIN));

              ImGui::SetCursorPos(prevCurPos);
            } else {
              prevCurPos=ImGui::GetCursorPos();
              ImGui::SetCursorPos(ImVec2(textX_tl,textY));
              CENTER_TEXT(FM_SHORT_NAME(FM_TL));
              ImGui::TextUnformatted(FM_SHORT_NAME(FM_TL));
              TOOLTIP_TEXT(FM_NAME(FM_TL));

              ImGui::SetCursorPos(prevCurPos);
            }

            ImGui::EndTable();
          }
          ImGui::PopStyleVar();

          if (settings.separateFMColors) {
            popAccentColors();
          }

          ImGui::PopID();
        }
        ImGui::EndTable();
      }
      ImGui::PopStyleVar();
    } else { // classic
      int columns=2;
      switch (settings.fmLayout) {
        case 1: // 2x2
          columns=2;
          break;
        case 2: // 1x4
          columns=1;
          break;
        case 3: // 4x1
          columns=opCount;
          break;
      }
      if (ImGui::BeginTable("FMOperators",columns,ImGuiTableFlags_SizingStretchSame)) {
        for (int i=0; i<opCount; i++) {
          DivInstrumentFM::Operator& op=fmOrigin.op[(opCount==4 && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_ESFM)?opOrder[i]:i];
          DivInstrumentESFM::Operator& opE=ins->esfm.op[i];
          if ((settings.fmLayout!=3 && ((i+1)&1)) || i==0 || settings.fmLayout==2) ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::Separator();
          ImGui::PushID(fmt::sprintf("op%d",i).c_str());

          // push colors
          if (settings.separateFMColors) {
            bool mod=true;
            if (ins->type==DIV_INS_OPL_DRUMS) {
              mod=false;
            } else if (ins->type==DIV_INS_ESFM) {
              // this is the same as the KVS heuristic in platform/esfm.h
              if (opE.outLvl==7) {
                mod=false;
              } else if (opE.outLvl>0) {
                if (i==3) {
                  mod=false;
                } else {
                  DivInstrumentESFM::Operator& opENext=ins->esfm.op[i+1];
                  if (opENext.modIn==0) {
                    mod=false;
                  } else if ((opE.outLvl-opENext.modIn)>=2) {
                    mod=false;
                  }
                }
              }
            } else if (opCount==4) {
              if (ins->type==DIV_INS_OPL) {
                if (opIsOutputOPL[fmOrigin.alg&3][i]) mod=false;
              } else {
                if (opIsOutput[fmOrigin.alg&7][i]) mod=false;
              }
            } else {
              if (i==1 || (ins->type==DIV_INS_OPL && (fmOrigin.alg&1))) mod=false;
            }
            if (mod) {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_MOD],
                uiColors[GUI_COLOR_FM_SECONDARY_MOD],
                uiColors[GUI_COLOR_FM_BORDER_MOD],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_MOD]
              );
            } else {
              pushAccentColors(
                uiColors[GUI_COLOR_FM_PRIMARY_CAR],
                uiColors[GUI_COLOR_FM_SECONDARY_CAR],
                uiColors[GUI_COLOR_FM_BORDER_CAR],
                uiColors[GUI_COLOR_FM_BORDER_SHADOW_CAR]
              );
            }
          }

          ImGui::Dummy(ImVec2(dpiScale,dpiScale));
          String opNameLabel;
          OP_DRAG_POINT;
          ImGui::SameLine();
          if (ins->type==DIV_INS_OPL_DRUMS) {
            opNameLabel=fmt::sprintf("%s",oplDrumNames[i]);
          } else if (ins->type==DIV_INS_OPL && fmOrigin.opllPreset==16) {
            if (i==1) {
              opNameLabel=_("Envelope 2 (kick only)");
            } else {
              opNameLabel=_("Envelope");
            }
          } else {
            opNameLabel=fmt::sprintf("OP%d",i+1);
          }
          if (opsAreMutable) {
            pushToggleColors(op.enable);
            if (ImGui::Button(opNameLabel.c_str())) {
              op.enable=!op.enable;
              PARAMETER;
            }
            popToggleColors();
          } else {
            ImGui::TextUnformatted(opNameLabel.c_str());
          }

          ImGui::SameLine();

          bool amOn=op.am;
          if (ImGui::Checkbox(FM_NAME(FM_AM),&amOn)) { PARAMETER
            op.am=amOn;
          }

          int maxTl=127;
          if (ins->type==DIV_INS_OPLL) {
            if (i==1) {
              maxTl=15;
            } else {
              maxTl=63;
            }
          }
          if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
            maxTl=63;
          }
          int maxArDr=(ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM)?31:15;

          bool ssgOn=op.ssgEnv&8;
          bool ksrOn=op.ksr;
          bool vibOn=op.vib;
          bool susOn=op.sus; // don't you make fun of this one
          unsigned char ssgEnv=op.ssgEnv&7;
          if (ins->type!=DIV_INS_OPL && ins->type!=DIV_INS_OPL_DRUMS && ins->type!=DIV_INS_OPZ && ins->type!=DIV_INS_OPM && ins->type!=DIV_INS_ESFM) {
            ImGui::SameLine();
            if (ImGui::Checkbox((ins->type==DIV_INS_OPLL)?FM_NAME(FM_EGS):_("SSG On"),&ssgOn)) { PARAMETER
              op.ssgEnv=(op.ssgEnv&7)|(ssgOn<<3);
            }
          }

          if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
            ImGui::SameLine();
            if (ImGui::Checkbox(FM_NAME(FM_SUS),&susOn)) { PARAMETER
              op.sus=susOn;
            }
          }

          if (ins->type==DIV_INS_OPZ) {
            ImGui::SameLine();
            bool fixedOn=op.egt;
            if (ImGui::Checkbox(_("Fixed"),&fixedOn)) { PARAMETER
              op.egt=fixedOn;
            }
            bool susOn=op.sus;
            if (fixedOn) {
              ImGui::SameLine();
              pushWarningColor(susOn && !e->song.compatFlags.linearPitch);
              if (ImGui::Checkbox(_("Pitch control"),&susOn)) { PARAMETER
                op.sus=susOn;
                // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
                ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
                ins->temp.vZoom[DIV_MACRO_OP_SUS+(i<<5)]=-1;
              }
              popWarningColor();
              if (ImGui::IsItemHovered()) {
                if (susOn && !e->song.compatFlags.linearPitch) {
                  ImGui::SetTooltip(_("only works on linear pitch! go to Compatibility Flags > Pitch/Playback and set Pitch linearity to Full."));
                } else {
                  ImGui::SetTooltip(_("use op's arpeggio and pitch macros control instead of block/f-num macros"));
                }
              }
            }
          }

          //52.0 controls vert scaling; default 96
          drawFMEnv(op.tl&maxTl,op.ar&maxArDr,op.dr&maxArDr,(ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPLL || ins->type==DIV_INS_ESFM)?((op.rr&15)*2):op.d2r&31,op.rr&15,op.sl&15,op.sus,op.ssgEnv&8,fmOrigin.alg,maxTl,maxArDr,15,ImVec2(ImGui::GetContentRegionAvail().x,52.0*dpiScale),ins->type);
          //P(CWSliderScalar(FM_NAME(FM_AR),ImGuiDataType_U8,&op.ar,&_ZERO,&_THIRTY_ONE)); rightClickable
          if (ImGui::BeginTable("opParams",2,ImGuiTableFlags_SizingStretchProp)) {
            ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0); \
            ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,0.0); \

            if (ins->type==DIV_INS_ESFM) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              opE.delay&=7;
              P(CWSliderScalar("##DELAY",ImGuiDataType_U8,&opE.delay,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",ESFM_NAME(ESFM_DELAY));
            }

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            op.ar&=maxArDr;
            P(CWSliderScalar("##AR",ImGuiDataType_U8,&op.ar,&maxArDr,&_ZERO)); rightClickable
            ImGui::TableNextColumn();
            ImGui::Text("%s",FM_NAME(FM_AR));

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            op.dr&=maxArDr;
            P(CWSliderScalar("##DR",ImGuiDataType_U8,&op.dr,&maxArDr,&_ZERO)); rightClickable
            ImGui::TableNextColumn();
            ImGui::Text("%s",FM_NAME(FM_DR));

            if (settings.susPosition==0) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##SL",ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_SL));
            }

            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##D2R",ImGuiDataType_U8,&op.d2r,&_THIRTY_ONE,&_ZERO)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_D2R));
            }

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            P(CWSliderScalar("##RR",ImGuiDataType_U8,&op.rr,&_FIFTEEN,&_ZERO)); rightClickable
            ImGui::TableNextColumn();
            ImGui::Text("%s",FM_NAME(FM_RR));

            if (settings.susPosition>0) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##SL",ImGuiDataType_U8,&op.sl,&_FIFTEEN,&_ZERO)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_SL));
            }

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            op.tl&=maxTl;
            P(CWSliderScalar("##TL",ImGuiDataType_U8,&op.tl,&maxTl,&_ZERO)); rightClickable
            ImGui::TableNextColumn();
            ImGui::Text("%s",FM_NAME(FM_TL));

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::Separator();
            ImGui::TableNextColumn();
            ImGui::Separator();
            
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
              P(CWSliderScalar("##RS",ImGuiDataType_U8,&op.rs,&_ZERO,&_THREE)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_RS));
            } else {
              int ksl=ins->type==DIV_INS_OPLL?op.ksl:kslMap[op.ksl&3];
              if (CWSliderInt("##KSL",&ksl,0,3)) {
                op.ksl=(ins->type==DIV_INS_OPLL?ksl:kslMap[ksl&3]);
                PARAMETER;
              } rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_KSL));
            }

            if (ins->type==DIV_INS_OPZ) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar(FM_NAME(FM_EGSHIFT),ImGuiDataType_U8,&op.ksl,&_ZERO,&_THREE)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_EGSHIFT));

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar(FM_NAME(FM_REV),ImGuiDataType_U8,&op.dam,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_REV));
            }

            if (ins->type==DIV_INS_OPZ) {
              if (op.egt) {
                bool susOn=op.sus;
                if (!susOn) {
                  int block=op.dt;
                  int freqNum=(op.mult<<4)|(op.dvb&15);

                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  if (CWSliderInt(FM_NAME(FM_MULT),&block,0,7)) { PARAMETER
                    if (block<0) block=0;
                    if (block>7) block=7;
                    op.dt=block;
                  } rightClickable
                  ImGui::TableNextColumn();
                  ImGui::Text("Block");

                  ImGui::TableNextRow();
                  ImGui::TableNextColumn();
                  ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                  if (CWSliderInt(FM_NAME(FM_FINE),&freqNum,0,255)) { PARAMETER
                    if (freqNum<0) freqNum=0;
                    if (freqNum>255) freqNum=255;
                    op.mult=freqNum>>4;
                    op.dvb=freqNum&15;
                  } rightClickable
                  ImGui::TableNextColumn();
                  ImGui::Text(_("FreqNum"));
                }
              } else {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar(FM_NAME(FM_MULT),ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN)); rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",FM_NAME(FM_MULT));

                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar(FM_NAME(FM_FINE),ImGuiDataType_U8,&op.dvb,&_ZERO,&_FIFTEEN)); rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",FM_NAME(FM_FINE));
              }
            } else {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              pushWarningColor(ins->type==DIV_INS_OPL_DRUMS && i==0);          
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar(FM_NAME(FM_MULT),ImGuiDataType_U8,&op.mult,&_ZERO,&_FIFTEEN)); rightClickable
              if (ins->type==DIV_INS_OPL_DRUMS && i==0) {
                if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip("%s",_("Snare's multiplier is determined by HiHat's."));
                }
              }
              popWarningColor();
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_MULT));
            }
            
            if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
              if (!(ins->type==DIV_INS_OPZ && op.egt)) {
                int detune=detuneMap[settings.unsignedDetune?1:0][op.dt&7];
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (CWSliderInt("##DT",&detune,settings.unsignedDetune?0:-3,settings.unsignedDetune?7:4)) { PARAMETER
                  if (detune<-3) detune=-3;
                  if (detune>7) detune=7;
                  op.dt=detuneUnmap[settings.unsignedDetune?1:0][detune+3];
                } rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",FM_NAME(FM_DT));
              }

              if (ins->type!=DIV_INS_FM) {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##DT2",ImGuiDataType_U8,&op.dt2,&_ZERO,&_THREE)); rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",FM_NAME(FM_DT2));
              }

              if (ins->type==DIV_INS_FM) { // OPN only
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (CWSliderScalar("##SSG",ImGuiDataType_U8,&ssgEnv,&_ZERO,&_SEVEN,_(ssgEnvTypes[ssgEnv]))) { PARAMETER
                  op.ssgEnv=(op.ssgEnv&8)|(ssgEnv&7);
                } rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",FM_NAME(FM_SSG));
              }
            }

            if (ins->type==DIV_INS_ESFM) {
              bool fixedOn=opE.fixed;
              if (fixedOn) {
                int block=(opE.ct>>2)&7;
                int freqNum=((opE.ct&3)<<8)|((unsigned char)opE.dt);
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::InputInt("##Block",&block,1,1)) {
                  if (block<0) block=0;
                  if (block>7) block=7;
                  opE.ct=(opE.ct&(~(7<<2)))|(block<<2);
                }
                ImGui::TableNextColumn();
                ImGui::Text(_("Block"));
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::InputInt("##FreqNum",&freqNum,1,16)) {
                  if (freqNum<0) freqNum=0;
                  if (freqNum>1023) freqNum=1023;
                  opE.dt=freqNum&0xff;
                  opE.ct=(opE.ct&(~3))|(freqNum>>8);
                }
                ImGui::TableNextColumn();
                ImGui::Text(_("FreqNum"));
              } else {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##CT",ImGuiDataType_S8,&opE.ct,&_MINUS_TWENTY_FOUR,&_TWENTY_FOUR)); rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",ESFM_NAME(ESFM_CT));

                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                P(CWSliderScalar("##DT",ImGuiDataType_S8,&opE.dt,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable
                ImGui::TableNextColumn();
                ImGui::Text("%s",ESFM_NAME(ESFM_DT));
              }

            }

            if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_ESFM) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##WS",ImGuiDataType_U8,&op.ws,&_ZERO,&_SEVEN,(ins->type==DIV_INS_OPZ)?opzWaveforms[op.ws&7]:(settings.oplStandardWaveNames?oplWaveformsStandard[op.ws&7]:oplWaveforms[op.ws&7]))); rightClickable
              if ((ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) && ImGui::IsItemHovered()) {
                ImGui::SetTooltip(_("OPL2/3/4 only (last 4 waveforms are OPL3/4 only)"));
              }
              ImGui::TableNextColumn();
              ImGui::Text("%s",FM_NAME(FM_WS));
            }

            if (ins->type==DIV_INS_ESFM) {
              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::Separator();
              ImGui::TableNextColumn();
              ImGui::Separator();

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##OUTLVL",ImGuiDataType_U8,&opE.outLvl,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",ESFM_NAME(ESFM_OUTLVL));

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##MODIN",ImGuiDataType_U8,&opE.modIn,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              ImGui::Text("%s",ESFM_NAME(ESFM_MODIN));
            }

            ImGui::EndTable();
          }

          if (ins->type==DIV_INS_OPLL || ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
            if (ImGui::Checkbox(FM_NAME(FM_VIB),&vibOn)) { PARAMETER
              op.vib=vibOn;
            }
            ImGui::SameLine();
            if (ImGui::Checkbox(FM_NAME(FM_KSR),&ksrOn)) { PARAMETER
              op.ksr=ksrOn;
            }
          }

          if (ins->type==DIV_INS_ESFM) {
            bool dvbOn=op.dvb;
            bool damOn=op.dam;
            bool leftOn=opE.left;
            bool rightOn=opE.right;
            bool fixedOn=opE.fixed;
            if (ImGui::Checkbox(FM_NAME(FM_DVB),&dvbOn)) { PARAMETER
              op.dvb=dvbOn;
            }
            ImGui::SameLine();
            if (ImGui::Checkbox(FM_NAME(FM_DAM),&damOn)) { PARAMETER
              op.dam=damOn;
            }
            if (ImGui::Checkbox(ESFM_NAME(ESFM_LEFT),&leftOn)) { PARAMETER
              opE.left=leftOn;
            }
            ImGui::SameLine();
            if (ImGui::Checkbox(ESFM_NAME(ESFM_RIGHT),&rightOn)) { PARAMETER
              opE.right=rightOn;
            }
            ImGui::SameLine();
            if (ImGui::Checkbox(ESFM_NAME(ESFM_FIXED),&fixedOn)) { PARAMETER
              opE.fixed=fixedOn;
              // HACK: reset zoom and scroll in fixed pitch macros so that they draw correctly
              ins->temp.vZoom[DIV_MACRO_OP_SSG+(i<<5)]=-1;
              ins->temp.vZoom[DIV_MACRO_OP_DT+(i<<5)]=-1;
            }
          }

          if (settings.separateFMColors) {
            popAccentColors();
          }

          ImGui::PopID();
        }
        ImGui::EndTable();
      }
    }
    ImGui::EndDisabled();
    ImGui::EndTabItem();
  }
}

void FurnaceGUI::drawInsSID3(DivInstrument* ins) {
  char buffer[100];
  char buffer2[100];

  if (ImGui::BeginTabItem("SID3")) {
    if (ImGui::BeginTable("sid3Waves",2,0)) {
      ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,0.0f);
      ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,0.0f);

      ImGui::TableNextRow();
      ImGui::TableNextColumn();

      ImGui::AlignTextToFramePadding();
      ImGui::Text(_("Waveform"));
      ImGui::SameLine();
      pushToggleColors(ins->sid3.triOn);
      if (ImGui::Button(_("tri"))) { PARAMETER
        ins->sid3.triOn=!ins->sid3.triOn;
      }
      popToggleColors();
      ImGui::SameLine();
      pushToggleColors(ins->sid3.sawOn);
      if (ImGui::Button(_("saw"))) { PARAMETER
        ins->sid3.sawOn=!ins->sid3.sawOn;
      }
      popToggleColors();
      ImGui::SameLine();
      pushToggleColors(ins->sid3.pulseOn);
      if (ImGui::Button(_("pulse"))) { PARAMETER
        ins->sid3.pulseOn=!ins->sid3.pulseOn;
      }
      popToggleColors();
      ImGui::SameLine();
      pushToggleColors(ins->sid3.noiseOn);
      if (ImGui::Button(_("noise"))) { PARAMETER
        ins->sid3.noiseOn=!ins->sid3.noiseOn;
      }
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("Like in SID2,specific noise LFSR feedback bits config can produce tonal waves.\n"
        "Refer to the manual for LFSR bits macro configurations for which frequency calculation is altered\n"
        "in a way that makes tonal noise stay in tune."));
      }
      popToggleColors();
      ImGui::SameLine();

      P(ImGui::Checkbox(_("1-bit noise"),&ins->sid3.oneBitNoise));
      ImGui::SameLine();

      pushToggleColors(ins->sid3.specialWaveOn);
      if (ImGui::Button(_("special"))) { PARAMETER
        ins->sid3.specialWaveOn=!ins->sid3.specialWaveOn;
      }
      popToggleColors();

      P(CWSliderScalar(_("Special wave"),ImGuiDataType_U8,&ins->sid3.special_wave,&_ZERO,&_SID3_SPECIAL_WAVES,_(sid3SpecialWaveforms[ins->sid3.special_wave%SID3_NUM_SPECIAL_WAVES]))); rightClickable

      if (ImGui::Checkbox(_("Wavetable channel"),&ins->sid3.doWavetable)) {
        PARAMETER;
        ins->temp.vZoom[DIV_MACRO_WAVE]=-1;
        for (int i=0; i<256; i++) {
          ins->std.waveMacro.val[i]=0;
        }
      }
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("Forces waveform macro to control wavetable index."));
      }

      bool invLeft=ins->sid3.phaseInv&SID3_INV_SIGNAL_LEFT;
      if (ImGui::Checkbox(_("Inv. left"),&invLeft)) { PARAMETER
        ins->sid3.phaseInv^=SID3_INV_SIGNAL_LEFT;
      }
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("Invert left channel signal"));
      }
      ImGui::SameLine();
      bool invRight=ins->sid3.phaseInv&SID3_INV_SIGNAL_RIGHT;
      if (ImGui::Checkbox(_("Inv. right"),&invRight)) { PARAMETER
        ins->sid3.phaseInv^=SID3_INV_SIGNAL_RIGHT;
      }
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("Invert right channel signal"));
      }

      ImGui::TableNextColumn();

      CENTER_TEXT(_("Special wave preview"));
      ImGui::TextUnformatted(_("Special wave preview"));
      drawWaveformSID3(ins->sid3.special_wave,ImVec2(120.0f*dpiScale,70.0f*dpiScale));

      ImGui::EndTable();
    }

    ImVec2 sliderSize=ImVec2(30.0f*dpiScale,256.0*dpiScale);

    if (ImGui::BeginTable("SID3EnvParams",6,ImGuiTableFlags_NoHostExtendX)) {
      ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
      ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
      ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
      ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
      ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
      ImGui::TableSetupColumn("c5",ImGuiTableColumnFlags_WidthStretch);

      ImGui::TableNextRow();
      ImGui::TableNextColumn();
      CENTER_TEXT(_("A"));
      ImGui::TextUnformatted(_("A"));
      ImGui::TableNextColumn();
      CENTER_TEXT(_("D"));
      ImGui::TextUnformatted(_("D"));
      ImGui::TableNextColumn();
      CENTER_TEXT(_("S"));
      ImGui::TextUnformatted(_("S"));
      ImGui::TableNextColumn();
      CENTER_TEXT(_("SR"));
      ImGui::TextUnformatted(_("SR"));
      ImGui::TableNextColumn();
      CENTER_TEXT(_("R"));
      ImGui::TextUnformatted(_("R"));
      ImGui::TableNextColumn();
      CENTER_TEXT(_("Envelope"));
      ImGui::TextUnformatted(_("Envelope"));

      ImGui::TableNextRow();
      ImGui::TableNextColumn();
      P(CWVSliderScalar("##Attack",sliderSize,ImGuiDataType_U8,&ins->sid3.a,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
      ImGui::TableNextColumn();
      P(CWVSliderScalar("##Decay",sliderSize,ImGuiDataType_U8,&ins->sid3.d,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
      ImGui::TableNextColumn();
      P(CWVSliderScalar("##Sustain",sliderSize,ImGuiDataType_U8,&ins->sid3.s,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
      ImGui::TableNextColumn();
      P(CWVSliderScalar("##SustainRate",sliderSize,ImGuiDataType_U8,&ins->sid3.sr,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
      ImGui::TableNextColumn();
      P(CWVSliderScalar("##Release",sliderSize,ImGuiDataType_U8,&ins->sid3.r,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
      ImGui::TableNextColumn();
      // the (ins->sid3.r==15?(ins->sid3.r-1):ins->sid3.r) is used so release part never becomes horizontal (which isn't the case with SID3 envelope)
      drawSID3Env(0,(ins->sid3.a==0?(255):(256-ins->sid3.a)),(ins->sid3.d==0?(255):(256-ins->sid3.d)),ins->sid3.sr,255-(ins->sid3.r==255?(ins->sid3.r-1):ins->sid3.r),255-ins->sid3.s,0,0,0,255,256,255,ImVec2(ImGui::GetContentRegionAvail().x,sliderSize.y),ins->type);

      ImGui::EndTable();
    }
    
    if (!ins->sid3.doWavetable) {
      strncpy(buffer,macroSID3WaveMixMode(0,(float)ins->sid3.mixMode,NULL).c_str(),40);
      P(CWSliderScalar(_("Wave Mix Mode"),ImGuiDataType_U8,&ins->sid3.mixMode,&_ZERO,&_FOUR,buffer));
      P(CWSliderScalar(_("Duty"),ImGuiDataType_U16,&ins->sid3.duty,&_ZERO,&_SIXTY_FIVE_THOUSAND_FIVE_HUNDRED_THIRTY_FIVE)); rightClickable
      P(CWSliderScalar(_("Feedback"),ImGuiDataType_U8,&ins->sid3.feedback,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE));
      bool resetDuty=ins->sid3.resetDuty;
      if (ImGui::Checkbox(_("Reset duty on new note"),&resetDuty)) { PARAMETER
        ins->sid3.resetDuty=resetDuty;
      }
      if (ImGui::Checkbox(_("Absolute Duty Macro"),&ins->sid3.dutyIsAbs)) {
        ins->temp.vZoom[DIV_MACRO_DUTY]=-1;
        PARAMETER;
      }
    }

    bool ringMod=ins->sid3.ringMod;
    if (ImGui::Checkbox(_("Ring Modulation"),&ringMod)) { PARAMETER
      ins->sid3.ringMod=ringMod;
    }

    ImGui::SameLine();

    strncpy(buffer,macroSID3SourceChan(0,(float)ins->sid3.ring_mod_source,NULL).c_str(),40);
    P(CWSliderScalar(_("Source channel##rmsrc"),ImGuiDataType_U8,&ins->sid3.ring_mod_source,&_ZERO,&_SID3_NUM_CHANNELS,buffer));

    bool oscSync=ins->sid3.oscSync;
    if (ImGui::Checkbox(_("Oscillator Sync"),&oscSync)) { PARAMETER
      ins->sid3.oscSync=oscSync;
    }

    ImGui::SameLine();

    strncpy(buffer,macroSID3SourceChan(0,(float)ins->sid3.sync_source,NULL).c_str(),40);
    P(CWSliderScalar(_("Source channel##hssrc"),ImGuiDataType_U8,&ins->sid3.sync_source,&_ZERO,&_SID3_NUM_CHANNELS_MINUS_ONE,buffer));

    bool phaseMod=ins->sid3.phase_mod;
    if (ImGui::Checkbox(_("Phase modulation"),&phaseMod)) { PARAMETER
      ins->sid3.phase_mod=phaseMod;
    }

    ImGui::SameLine();

    strncpy(buffer,macroSID3SourceChan(0,(float)ins->sid3.phase_mod_source,NULL).c_str(),40);
    P(CWSliderScalar(_("Source channel##pmsrc"),ImGuiDataType_U8,&ins->sid3.phase_mod_source,&_ZERO,&_SID3_NUM_CHANNELS_MINUS_ONE,buffer));

    ImGui::Separator();

    if (!ins->sid3.doWavetable) {
      bool sepNoisePitch=ins->sid3.separateNoisePitch;
      if (ImGui::Checkbox(_("Separate noise pitch"),&sepNoisePitch)) { PARAMETER
        ins->sid3.separateNoisePitch=sepNoisePitch;
      }
      if (ImGui::IsItemHovered()) {
        ImGui::SetTooltip(_("Make noise pitch independent from other waves' pitch.\nNoise pitch will be controllable via macros."));
      }
    }

    for (int i=0; i<SID3_NUM_FILTERS; i++) {
      DivInstrumentSID3::Filter* filt=&ins->sid3.filt[i];

      if (filt->enabled) {
        ImGui::Separator();
      }

      bool enable=filt->enabled;
      snprintf(buffer,100,_("Enable filter %d"),i+1);
      if (ImGui::Checkbox(buffer,&enable)) { PARAMETER
        filt->enabled=enable;
      }

      if (filt->enabled) {
        bool init=filt->init;
        snprintf(buffer,100,_("Initialize filter %d"),i+1);
        if (ImGui::Checkbox(buffer,&init)) { PARAMETER
          filt->init=init;
        }
        ImGui::SameLine();
        snprintf(buffer,100,_("Connect to channel input##contoinput%d"),i+1);
        bool toInput=filt->mode&SID3_FILTER_CHANNEL_INPUT;
        if (ImGui::Checkbox(buffer,&toInput)) { PARAMETER
          filt->mode^=SID3_FILTER_CHANNEL_INPUT;
        }

        snprintf(buffer,100,_("Cutoff##fcut%d"),i+1);
        P(CWSliderScalar(buffer,ImGuiDataType_U16,&filt->cutoff,&_ZERO,&_SIXTY_FIVE_THOUSAND_FIVE_HUNDRED_THIRTY_FIVE)); rightClickable
        snprintf(buffer,100,_("Resonance##fres%d"),i+1);
        P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->resonance,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
        snprintf(buffer,100,_("Output volume##foutvol%d"),i+1);
        P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->output_volume,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
        snprintf(buffer,100,_("Distortion level##fdist%d"),i+1);
        P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->distortion_level,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable

        ImGui::AlignTextToFramePadding();
        ImGui::Text(_("Filter Mode"));
        ImGui::SameLine();

        bool lp=filt->mode&SID3_FILTER_LP;
        pushToggleColors(lp);
        snprintf(buffer,100,_("low##flow%d"),i+1);
        if (ImGui::Button(buffer)) { PARAMETER
          filt->mode^=SID3_FILTER_LP;
        }
        popToggleColors();
        ImGui::SameLine();

        bool bp=filt->mode&SID3_FILTER_BP;
        pushToggleColors(bp);
        snprintf(buffer,100,_("band##fband%d"),i+1);
        if (ImGui::Button(buffer)) { PARAMETER
          filt->mode^=SID3_FILTER_BP;
        }
        popToggleColors();
        ImGui::SameLine();

        bool hp=filt->mode&SID3_FILTER_HP;
        pushToggleColors(hp);
        snprintf(buffer,100,_("high##fhigh%d"),i+1);
        if (ImGui::Button(buffer)) { PARAMETER
          filt->mode^=SID3_FILTER_HP;
        }
        popToggleColors();


        ImGui::SameLine();
        snprintf(buffer,100,_("Connect to channel output##contooutput%d"),i+1);
        bool toOutput=filt->mode&SID3_FILTER_OUTPUT;
        if (ImGui::Checkbox(buffer,&toOutput)) { PARAMETER
          filt->mode^=SID3_FILTER_OUTPUT;
        }

        snprintf(buffer,100,_("Absolute cutoff macro##abscutoff%d"),i+1);
        bool absCutoff=filt->absoluteCutoff;
        if (ImGui::Checkbox(buffer,&absCutoff)) { PARAMETER
          filt->absoluteCutoff=!filt->absoluteCutoff;
          ins->temp.vZoom[DIV_MACRO_OP_D2R+(i<<5)]=-1;
        }

        snprintf(buffer,100,_("Change cutoff with pitch##bindcutoff%d"),i+1);
        P(ImGui::Checkbox(buffer,&filt->bindCutoffToNote));
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Filter cutoff will change with frequency/pitch.\nSee settings below."));
        }

        if (filt->bindCutoffToNote) {
          snprintf(buffer,100,_("Decrease cutoff when pitch increases##decreasecutoff%d"),i+1);
          P(ImGui::Checkbox(buffer,&filt->bindCutoffToNoteDir));
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("If this is enabled,filter cutoff will decrease if you increase the pitch.\n"
            "If this is disabled,filter cutoff will increase if you increase the pitch."));
          }

          snprintf(buffer2,100,_("%s"),noteNameNormal(filt->bindCutoffToNoteCenter));
          snprintf(buffer,100,_("Cutoff change center note##bindcutcenternote%d"),i+1);
          P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->bindCutoffToNoteCenter,&_ZERO,&_ONE_HUNDRED_SEVENTY_NINE,buffer2)); rightClickable
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("The center note for cutoff changes. At this note no cutoff change happens.\nAs pitch goes lower or higher,cutoff changes apply."));
          }

          snprintf(buffer,100,_("Cutoff change strength##bindcutstrength%d"),i+1);
          P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->bindCutoffToNoteStrength,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("How much cutoff changes for given pitch change."));
          }
          snprintf(buffer,100,_("Scale cutoff only once on new note##bindcutnn%d"),i+1);
          P(ImGui::Checkbox(buffer,&filt->bindCutoffOnNote));
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("Filter cutoff will be changed only once on new note.\nIf this option is disabled,cutoff scaling will be applied\nevery time a pitch change happens."));
          }
        }

        snprintf(buffer,100,_("Change resonance with pitch##bindres%d"),i+1);
        P(ImGui::Checkbox(buffer,&filt->bindResonanceToNote));
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Filter resonance will change with frequency/pitch.\nSee settings below."));
        }

        if (filt->bindResonanceToNote) {
          snprintf(buffer,100,_("Decrease resonance when pitch increases##decreaseres%d"),i+1);
          P(ImGui::Checkbox(buffer,&filt->bindResonanceToNoteDir));
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("If this is enabled,filter resonance will decrease if you increase the pitch.\n"
            "If this is disabled,filter resonance will increase if you increase the pitch."));
          }

          snprintf(buffer2,100,_("%s"),noteNameNormal(filt->bindResonanceToNoteCenter));
          snprintf(buffer,100,_("Resonance change center note##bindrescenternote%d"),i+1);
          P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->bindResonanceToNoteCenter,&_ZERO,&_ONE_HUNDRED_SEVENTY_NINE,buffer2)); rightClickable
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("The center note for resonance changes. At this note no resonance change happens.\nAs pitch goes lower or higher,resonance changes apply."));
          }

          snprintf(buffer,100,_("Resonance change strength##bindresstrength%d"),i+1);
          P(CWSliderScalar(buffer,ImGuiDataType_U8,&filt->bindResonanceToNoteStrength,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("How much resonance changes for given pitch change."));
          }
          snprintf(buffer,100,_("Scale resonance only once on new note##bindresnn%d"),i+1);
          P(ImGui::Checkbox(buffer,&filt->bindResonanceOnNote));
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("Filter resonance will be changed only once on new note.\nIf this option is disabled,resonance scaling will be applied\nevery time a pitch change happens."));
          }
        }
      }
    }

    ImGui::Separator();

    if (ImGui::BeginTable("SID3filtmatrix",1)) {
      if (waveGenVisible) ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,250.0f*dpiScale);
      ImGui::TableNextRow();
      ImGui::TableNextColumn();

      CENTER_TEXT(_("Filters connection matrix"));
      ImGui::Text(_("Filters connection matrix"));

      if (ImGui::BeginTable("SID3checkboxesmatrix",3+SID3_NUM_FILTERS)) {
        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::Text(">>");
        ImGui::TableNextColumn();
        ImGui::Text(_("In"));

        for (int i=0; i<SID3_NUM_FILTERS; i++) {
          ImGui::TableNextColumn();
          ImGui::Text("%d",i+1);
        }

        ImGui::TableNextColumn();
        ImGui::Text(_("Out"));

        ImGui::TableNextRow();

        for (int i=0; i<SID3_NUM_FILTERS; i++) {
          DivInstrumentSID3::Filter* filt=&ins->sid3.filt[i];

          ImGui::TableNextRow();
          ImGui::TableNextColumn();
          ImGui::Text("%d",i+1);

          ImGui::TableNextColumn();

          snprintf(buffer,40,"##filtmatrixin%d",i+1);
          bool toInput=filt->mode&SID3_FILTER_CHANNEL_INPUT;
          if (ImGui::Checkbox(buffer,&toInput)) { PARAMETER
            filt->mode^=SID3_FILTER_CHANNEL_INPUT;
          }
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("Feed signal from channel to filter %d input"),i+1);
          }

          for (int j=0; j<SID3_NUM_FILTERS; j++) {
            ImGui::TableNextColumn();
            snprintf(buffer,40,"##filtmatrix%d%d",i+1,j+1);

            bool enable=filt->filter_matrix&(1<<j);
            if (ImGui::Checkbox(buffer,&enable)) { PARAMETER
              filt->filter_matrix^=(1<<j);
            }
            if (ImGui::IsItemHovered()) {
              ImGui::SetTooltip(_("Feed signal from filter %d output to filter %d input"),j+1,i+1);
            }
          }

          ImGui::TableNextColumn();

          snprintf(buffer,40,"##filtmatrixout%d",i+1);
          bool toOutput=filt->mode&SID3_FILTER_OUTPUT;
          if (ImGui::Checkbox(buffer,&toOutput)) { PARAMETER
            filt->mode^=SID3_FILTER_OUTPUT;
          }
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("Feed signal from filter %d output to channel output"),i+1);
          }
        }

        ImGui::EndTable();
      }

      ImGui::EndTable();
    }

    ImGui::EndTabItem();
  }

  if (!ins->amiga.useSample) {
    insTabWavetable(ins);
  }
  insTabSample(ins);

  std::vector<FurnaceGUIMacroDesc> macroList;

  for (int i=0; i<SID3_NUM_FILTERS; i++) {
    snprintf(buffer,40,_("Filter %d macros"),i+1);

    if (ImGui::BeginTabItem(buffer)) {
      macroList.push_back(FurnaceGUIMacroDesc(_("Cutoff"),&ins->std.opMacros[i].d2rMacro,ins->sid3.filt[i].absoluteCutoff?0:-65535,65535,160,uiColors[GUI_COLOR_MACRO_FILTER]));
      macroList.push_back(FurnaceGUIMacroDesc(_("Resonance"),&ins->std.opMacros[i].damMacro,0,255,160,uiColors[GUI_COLOR_MACRO_FILTER]));
      macroList.push_back(FurnaceGUIMacroDesc(_("Filter Toggle"),&ins->std.opMacros[i].drMacro,0,1,32,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true));
      macroList.push_back(FurnaceGUIMacroDesc(_("Filter Mode"),&ins->std.opMacros[i].ksrMacro,0,3,48,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true,filtModeBits));
      macroList.push_back(FurnaceGUIMacroDesc(_("Distortion Level"),&ins->std.opMacros[i].dt2Macro,0,255,160,uiColors[GUI_COLOR_MACRO_FILTER]));
      macroList.push_back(FurnaceGUIMacroDesc(_("Output Volume"),&ins->std.opMacros[i].dtMacro,0,255,160,uiColors[GUI_COLOR_MACRO_FILTER]));
      macroList.push_back(FurnaceGUIMacroDesc(_("Channel Input Connection"),&ins->std.opMacros[i].dvbMacro,0,1,32,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true));
      macroList.push_back(FurnaceGUIMacroDesc(_("Channel Output Connection"),&ins->std.opMacros[i].egtMacro,0,1,32,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true));
      macroList.push_back(FurnaceGUIMacroDesc(_("Connection Matrix Row"),&ins->std.opMacros[i].kslMacro,0,SID3_NUM_FILTERS,16*SID3_NUM_FILTERS,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true,sid3FilterMatrixBits));

      drawMacros(macroList,macroEditStateOP[i],ins);

      ImGui::EndTabItem();
    }
  }
}

void FurnaceGUI::drawInsEdit() {
  if (nextWindow==GUI_WINDOW_INS_EDIT) {
    insEditOpen=true;
    ImGui::SetNextWindowFocus();
    nextWindow=GUI_WINDOW_NOTHING;
  }
  if (!insEditOpen) return;
  if (mobileUI) {
    patWindowPos=(portrait?ImVec2(0.0f,(mobileMenuPos*-0.65*canvasH)):ImVec2((0.16*canvasH)+0.5*canvasW*mobileMenuPos,0.0f));
    patWindowSize=(portrait?ImVec2(canvasW,canvasH-(0.16*canvasW)-(pianoOpen?(0.4*canvasW):0.0f)):ImVec2(canvasW-(0.16*canvasH),canvasH-(pianoOpen?(0.3*canvasH):0.0f)));
    ImGui::SetNextWindowPos(patWindowPos);
    ImGui::SetNextWindowSize(patWindowSize);
  } else {
    ImGui::SetNextWindowSizeConstraints(ImVec2(440.0f*dpiScale,400.0f*dpiScale),ImVec2(canvasW,canvasH));
  }
  if (ImGui::Begin("Instrument Editor",&insEditOpen,globalWinFlags|(settings.allowEditDocking?0:ImGuiWindowFlags_NoDocking),_("Instrument Editor"))) {
    DivInstrument* ins=NULL;
    if (curIns==-2) {
      ImGui::SetCursorPosY(ImGui::GetCursorPosY()+(ImGui::GetContentRegionAvail().y-ImGui::GetFrameHeightWithSpacing()+ImGui::GetStyle().ItemSpacing.y)*0.5f);
      CENTER_TEXT(_("waiting..."));
      ImGui::Text(_("waiting..."));
    } else if (curIns<0 || curIns>=(int)e->song.ins.size()) {
      ImGui::SetCursorPosY(ImGui::GetCursorPosY()+(ImGui::GetContentRegionAvail().y-ImGui::GetFrameHeightWithSpacing()*(e->song.ins.empty()?2.0f:3.0f)+ImGui::GetStyle().ItemSpacing.y)*0.5f);
      CENTER_TEXT(_("no instrument selected"));
      ImGui::Text(_("no instrument selected"));
      if (ImGui::BeginTable("noAssetCenter",3)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.5f);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,0.5f);

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        ImGui::TableNextColumn();

        if (e->song.ins.size()>0) {
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
          if (ImGui::BeginCombo("##InsSelect",_("select one..."))) {
            String name;
            for (size_t i=0; i<e->song.ins.size(); i++) {
              name=fmt::sprintf("%.2X: %s##_INSS%d",i,e->song.ins[i]->name,i);
              if (ImGui::Selectable(name.c_str(),curIns==(int)i)) {
                setCurIns(i);
                wavePreviewInit=true;
                updateFMPreview=true;
                ins=e->song.ins[curIns];
              }
            }
            ImGui::EndCombo();
          }
          ImGui::AlignTextToFramePadding();
          ImGui::TextUnformatted(_("or"));
          ImGui::SameLine();
        }
        if (ImGui::Button(_("Open"))) {
          doAction(GUI_ACTION_INS_LIST_OPEN);
        }
        ImGui::SameLine();
        ImGui::TextUnformatted(_("or"));
        ImGui::SameLine();
        if (ImGui::Button(_("Create New"))) {
          doAction(GUI_ACTION_INS_LIST_ADD);
        }

        ImGui::TableNextColumn();
        ImGui::EndTable();
      }
    } else {
      ins=e->song.ins[curIns];
      if (updateFMPreview) {
        renderFMPreview(ins);
        updateFMPreview=false;
      }
      if (settings.insEditColorize) {
        if (ins->type>=DIV_INS_MAX) {
          pushAccentColors(uiColors[GUI_COLOR_INSTR_UNKNOWN],uiColors[GUI_COLOR_INSTR_UNKNOWN],uiColors[GUI_COLOR_INSTR_UNKNOWN],ImVec4(0.0f,0.0f,0.0f,0.0f));
        } else {
          pushAccentColors(uiColors[GUI_COLOR_INSTR_STD+ins->type],uiColors[GUI_COLOR_INSTR_STD+ins->type],uiColors[GUI_COLOR_INSTR_STD+ins->type],ImVec4(0.0f,0.0f,0.0f,0.0f));
        }
      }
      if (ImGui::BeginTable("InsProp",3)) {
        ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed);
        ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch);
        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        String insIndex=fmt::sprintf("%.2X",curIns);
        ImGui::SetNextItemWidth(72.0f*dpiScale);
        if (ImGui::BeginCombo("##InsSelect",insIndex.c_str())) {
          String name;
          for (size_t i=0; i<e->song.ins.size(); i++) {
            name=fmt::sprintf("%.2X: %s##_INSS%d",i,e->song.ins[i]->name,i);
            if (ImGui::Selectable(name.c_str(),curIns==(int)i)) {
              setCurIns(i);
              ins=e->song.ins[curIns];
              wavePreviewInit=true;
              updateFMPreview=true;
            }
          }
          ImGui::EndCombo();
        }

        ImGui::TableNextColumn();
        ImGui::Text(_("Name"));

        ImGui::TableNextColumn();
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        ImGui::PushID(2+curIns);
        if (ImGui::InputText("##Name",&ins->name)) {
          MARK_MODIFIED;
        }
        ImGui::PopID();

        ImGui::TableNextRow();
        ImGui::TableNextColumn();
        if (ImGui::Button(ICON_FA_FOLDER_OPEN "##IELoad")) {
          doAction(GUI_ACTION_INS_LIST_OPEN_REPLACE);
        }
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Open"));
        }
        ImGui::SameLine();
        if (ImGui::Button(ICON_FA_FLOPPY_O "##IESave")) {
          doAction(GUI_ACTION_INS_LIST_SAVE);
        }
        if (ImGui::IsItemHovered()) {
          ImGui::SetTooltip(_("Save"));
        }
        if (ImGui::BeginPopupContextItem("InsSaveFormats",ImGuiMouseButton_Right)) {
          if (ImGui::MenuItem(_("save as .dmp..."))) {
            doAction(GUI_ACTION_INS_LIST_SAVE_DMP);
          }
          ImGui::EndPopup();
        }

        ImGui::TableNextColumn();
        ImGui::Text(_("Type"));

        ImGui::TableNextColumn();
        int insType=ins->type;
        ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
        bool warnType=true;
        for (DivInstrumentType i: e->getPossibleInsTypes()) {
          if (i==insType) {
            warnType=false;
          }
        }

        pushWarningColor(warnType,warnType && failedNoteOn);
        if (ImGui::BeginCombo("##Type",(insType>=DIV_INS_MAX)?_("Unknown"):_(insTypes[insType][0]))) {
          std::vector<DivInstrumentType> insTypeList;
          if (settings.displayAllInsTypes) {
            for (int i=0; insTypes[i][0]; i++) {
              insTypeList.push_back((DivInstrumentType)i);
            }
          } else {
            insTypeList=e->getPossibleInsTypes();
          }
          for (DivInstrumentType i: insTypeList) {
            if (ImGui::Selectable(insTypes[i][0],insType==i)) {
              ins->type=i;
              MARK_MODIFIED;

              // reset macro zoom
              memset(ins->temp.vZoom,-1,sizeof(ins->temp.vZoom));
            }
          }
          ImGui::EndCombo();
        } else if (warnType) {
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("none of the currently present chips are able to play this instrument type!"));
          }
        }
        popWarningColor();

        ImGui::EndTable();
      }
      

      if (ImGui::BeginTabBar("insEditTab")) {
        std::vector<FurnaceGUIMacroDesc> macroList;

        if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPLL || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_OPM || ins->type==DIV_INS_ESFM) {
          char label[32];
          int opCount=4;
          if (ins->type==DIV_INS_OPLL) opCount=2;
          if (ins->type==DIV_INS_OPL) opCount=(ins->fm.ops==4)?4:2;

          insTabFM(ins);

          if (ins->type!=DIV_INS_ESFM) {
            if (ImGui::BeginTabItem(_("FM Macros"))) {
              if (ins->type==DIV_INS_OPLL) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SUS),&ins->std.algMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_FB),&ins->std.fbMacro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DC),&ins->std.fmsMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DM),&ins->std.amsMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_ALG),&ins->std.algMacro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_FB),&ins->std.fbMacro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                if (ins->type!=DIV_INS_OPL && ins->type!=DIV_INS_OPL_DRUMS) {
                  if (ins->type==DIV_INS_OPZ) {
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_FMS),&ins->std.fmsMacro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AMS),&ins->std.amsMacro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER]));
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_FMS2),&ins->std.ex9Macro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AMS2),&ins->std.ex10Macro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER]));
                  } else {
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_FMS),&ins->std.fmsMacro,0,7,96,uiColors[GUI_COLOR_MACRO_OTHER]));
                    macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AMS),&ins->std.amsMacro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER]));
                  }
                }
              }

              if (ins->type==DIV_INS_FM) {
                macroList.push_back(FurnaceGUIMacroDesc(_("LFO Speed"),&ins->std.ex3Macro,0,8,96,uiColors[GUI_COLOR_MACRO_OTHER]));
              }
              if (ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM) {
                macroList.push_back(FurnaceGUIMacroDesc(_("AM Depth"),&ins->std.ex1Macro,0,127,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("PM Depth"),&ins->std.ex2Macro,0,127,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("LFO Speed"),&ins->std.ex3Macro,0,255,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("LFO Shape"),&ins->std.waveMacro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroLFOWaves));
              }
              if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM) {
                macroList.push_back(FurnaceGUIMacroDesc(_("OpMask"),&ins->std.ex4Macro,0,4,128,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,fmOperatorBits));
              } else if (ins->type==DIV_INS_OPZ) {
                macroList.push_back(FurnaceGUIMacroDesc(_("AM Depth 2"),&ins->std.ex5Macro,0,127,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("PM Depth 2"),&ins->std.ex6Macro,0,127,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("LFO2 Speed"),&ins->std.ex7Macro,0,255,128,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("LFO2 Shape"),&ins->std.ex8Macro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroLFOWaves));
              }
              drawMacros(macroList,macroEditStateFM,ins);
              ImGui::EndTabItem();
            }
          }
          for (int i=0; i<opCount; i++) {
            if (ins->type==DIV_INS_OPL_DRUMS) {
              if (i>0) break;
              snprintf(label,31,_("Operator Macros"));
            } else {
              snprintf(label,31,_("OP%d Macros"),i+1);
            }
            if (ImGui::BeginTabItem(label)) {
              ImGui::PushID(i);
              int ordi=(opCount==4 && ins->type!=DIV_INS_ESFM)?orderedOps[i]:i;
              int maxTl=127;
              if (ins->type==DIV_INS_OPLL) {
                if (i==1) {
                  maxTl=15;
                } else {
                  maxTl=63;
                }
              }
              if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS || ins->type==DIV_INS_ESFM) {
                maxTl=63;
              }
              int maxArDr=(ins->type==DIV_INS_FM || ins->type==DIV_INS_OPZ || ins->type==DIV_INS_OPM)?31:15;

              if (ins->type==DIV_INS_OPL || ins->type==DIV_INS_OPL_DRUMS) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_TL),&ins->std.opMacros[ordi].tlMacro,0,maxTl,128,uiColors[GUI_COLOR_MACRO_VOLUME]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AR),&ins->std.opMacros[ordi].arMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DR),&ins->std.opMacros[ordi].drMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SL),&ins->std.opMacros[ordi].slMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RR),&ins->std.opMacros[ordi].rrMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSL),&ins->std.opMacros[ordi].kslMacro,0,3,32,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_MULT),&ins->std.opMacros[ordi].multMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_WS),&ins->std.opMacros[ordi].wsMacro,0,7,64,uiColors[GUI_COLOR_MACRO_OTHER]));

                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AM),&ins->std.opMacros[ordi].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_VIB),&ins->std.opMacros[ordi].vibMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSR),&ins->std.opMacros[ordi].ksrMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SUS),&ins->std.opMacros[ordi].susMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              } else if (ins->type==DIV_INS_OPLL) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_TL),&ins->std.opMacros[ordi].tlMacro,0,maxTl,128,uiColors[GUI_COLOR_MACRO_VOLUME]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AR),&ins->std.opMacros[ordi].arMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DR),&ins->std.opMacros[ordi].drMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SL),&ins->std.opMacros[ordi].slMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RR),&ins->std.opMacros[ordi].rrMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSL),&ins->std.opMacros[ordi].kslMacro,0,3,32,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_MULT),&ins->std.opMacros[ordi].multMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));

                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AM),&ins->std.opMacros[ordi].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_VIB),&ins->std.opMacros[ordi].vibMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSR),&ins->std.opMacros[ordi].ksrMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_EGS),&ins->std.opMacros[ordi].egtMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              } else if (ins->type==DIV_INS_ESFM) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_TL),&ins->std.opMacros[ordi].tlMacro,0,maxTl,128,uiColors[GUI_COLOR_MACRO_VOLUME]));
                if (ins->esfm.op[ordi].fixed) {
                  macroList.push_back(FurnaceGUIMacroDesc(_("Block"),&ins->std.opMacros[ordi].ssgMacro,0,7,64,uiColors[GUI_COLOR_MACRO_PITCH],true));
                  macroList.push_back(FurnaceGUIMacroDesc(_("FreqNum"),&ins->std.opMacros[ordi].dtMacro,0,1023,160,uiColors[GUI_COLOR_MACRO_PITCH]));
                } else {
                  macroList.push_back(FurnaceGUIMacroDesc(_("Op. Arpeggio"),&ins->std.opMacros[ordi].ssgMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.opMacros[ordi].ssgMacro.val,true));
                  macroList.push_back(FurnaceGUIMacroDesc(_("Op. Pitch"),&ins->std.opMacros[ordi].dtMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode,NULL,false,NULL,false,NULL,false,true));
                }
                macroList.push_back(FurnaceGUIMacroDesc(ESFM_NAME(ESFM_DELAY),&ins->std.opMacros[ordi].dt2Macro,0,7,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AR),&ins->std.opMacros[ordi].arMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DR),&ins->std.opMacros[ordi].drMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SL),&ins->std.opMacros[ordi].slMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RR),&ins->std.opMacros[ordi].rrMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSL),&ins->std.opMacros[ordi].kslMacro,0,3,32,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_MULT),&ins->std.opMacros[ordi].multMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_WS),&ins->std.opMacros[ordi].wsMacro,0,7,64,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(ESFM_NAME(ESFM_OUTLVL),&ins->std.opMacros[ordi].egtMacro,0,7,64,uiColors[GUI_COLOR_MACRO_VOLUME]));
                macroList.push_back(FurnaceGUIMacroDesc(ESFM_NAME(ESFM_MODIN),&ins->std.opMacros[ordi].d2rMacro,0,7,64,uiColors[GUI_COLOR_MACRO_VOLUME]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AM),&ins->std.opMacros[ordi].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_VIB),&ins->std.opMacros[ordi].vibMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DAM),&ins->std.opMacros[ordi].damMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DVB),&ins->std.opMacros[ordi].dvbMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_KSR),&ins->std.opMacros[ordi].ksrMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SUS),&ins->std.opMacros[ordi].susMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(_("Op. Panning"),&ins->std.opMacros[ordi].rsMacro,0,2,40,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              } else if (ins->type==DIV_INS_FM || ins->type==DIV_INS_OPM) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_TL),&ins->std.opMacros[ordi].tlMacro,0,maxTl,128,uiColors[GUI_COLOR_MACRO_VOLUME]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AR),&ins->std.opMacros[ordi].arMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DR),&ins->std.opMacros[ordi].drMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_D2R),&ins->std.opMacros[ordi].d2rMacro,0,31,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RR),&ins->std.opMacros[ordi].rrMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SL),&ins->std.opMacros[ordi].slMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RS),&ins->std.opMacros[ordi].rsMacro,0,3,32,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_MULT),&ins->std.opMacros[ordi].multMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DT),&ins->std.opMacros[ordi].dtMacro,0,7,64,uiColors[GUI_COLOR_MACRO_PITCH]));
                if (ins->type==DIV_INS_OPM) {
                  macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DT2),&ins->std.opMacros[ordi].dt2Macro,0,3,32,uiColors[GUI_COLOR_MACRO_PITCH]));
                }
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AM),&ins->std.opMacros[ordi].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));

                if (ins->type==DIV_INS_FM) {
                  macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SSG),&ins->std.opMacros[ordi].ssgMacro,0,4,64,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,true,ssgEnvBits));
                }
              } else if (ins->type==DIV_INS_OPZ) {
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_TL),&ins->std.opMacros[ordi].tlMacro,0,maxTl,128,uiColors[GUI_COLOR_MACRO_VOLUME]));
                if (ins->fm.op[ordi].egt) {
                  if (!ins->fm.op[ordi].sus) {
                    macroList.push_back(FurnaceGUIMacroDesc(_("Block"),&ins->std.opMacros[ordi].ssgMacro,0,7,64,uiColors[GUI_COLOR_MACRO_PITCH],true));
                    macroList.push_back(FurnaceGUIMacroDesc(_("FreqNum"),&ins->std.opMacros[ordi].susMacro,0,255,160,uiColors[GUI_COLOR_MACRO_PITCH]));
                  } else {
                    macroList.push_back(FurnaceGUIMacroDesc(_("Op. Arpeggio"),&ins->std.opMacros[ordi].ssgMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.opMacros[ordi].ssgMacro.val,true));
                    macroList.push_back(FurnaceGUIMacroDesc(_("Op. Pitch"),&ins->std.opMacros[ordi].susMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode,NULL,false,NULL,false,NULL,false,true));
                  }
                }
                
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AR),&ins->std.opMacros[ordi].arMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DR),&ins->std.opMacros[ordi].drMacro,0,maxArDr,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_D2R),&ins->std.opMacros[ordi].d2rMacro,0,31,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RR),&ins->std.opMacros[ordi].rrMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_SL),&ins->std.opMacros[ordi].slMacro,0,15,64,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_RS),&ins->std.opMacros[ordi].rsMacro,0,3,32,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_MULT),&ins->std.opMacros[ordi].multMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DT),&ins->std.opMacros[ordi].dtMacro,0,7,64,uiColors[GUI_COLOR_MACRO_PITCH]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_DT2),&ins->std.opMacros[ordi].dt2Macro,0,3,32,uiColors[GUI_COLOR_MACRO_PITCH]));
                macroList.push_back(FurnaceGUIMacroDesc(FM_NAME(FM_AM),&ins->std.opMacros[ordi].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              }
              drawMacros(macroList,macroEditStateOP[ordi],ins);
              ImGui::PopID();
              ImGui::EndTabItem();
            }
          }
        }
        if (ins->type==DIV_INS_GB) if (ImGui::BeginTabItem("Game Boy")) {
          P(ImGui::Checkbox(_("Use software envelope"),&ins->gb.softEnv));
          P(ImGui::Checkbox(_("Initialize envelope on every note"),&ins->gb.alwaysInit));
          P(ImGui::Checkbox(_("Double wave length (GBA only)"),&ins->gb.doubleWave));

          ImGui::BeginDisabled(ins->gb.softEnv);
          if (ImGui::BeginTable("GBParams",2)) {
            ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.6f);
            ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.4f);

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            if (ImGui::BeginTable("GBParamsI",2)) {
              ImGui::TableSetupColumn("ci0",ImGuiTableColumnFlags_WidthFixed);
              ImGui::TableSetupColumn("ci1",ImGuiTableColumnFlags_WidthStretch);

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::Text(_("Volume"));
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##GBVolume",ImGuiDataType_U8,&ins->gb.envVol,&_ZERO,&_FIFTEEN)); rightClickable

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::Text(_("Length"));
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##GBEnvLen",ImGuiDataType_U8,&ins->gb.envLen,&_ZERO,&_SEVEN)); rightClickable

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::Text(_("Sound Length"));
              ImGui::TableNextColumn();
              ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
              P(CWSliderScalar("##GBSoundLen",ImGuiDataType_U8,&ins->gb.soundLen,&_ZERO,&_SIXTY_FOUR,ins->gb.soundLen>63?_("Infinity"):"%d")); rightClickable

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              ImGui::Text(_("Direction"));
              ImGui::TableNextColumn();
              bool goesUp=ins->gb.envDir;
              if (ImGui::RadioButton(_("Up"),goesUp)) { PARAMETER
                goesUp=true;
                ins->gb.envDir=goesUp;
              }
              ImGui::SameLine();
              if (ImGui::RadioButton(_("Down"),!goesUp)) { PARAMETER
                goesUp=false;
                ins->gb.envDir=goesUp;
              }

              ImGui::EndTable();
            }

            ImGui::TableNextColumn();
            drawGBEnv(ins->gb.envVol,ins->gb.envLen,ins->gb.soundLen,ins->gb.envDir,ImVec2(ImGui::GetContentRegionAvail().x,100.0f*dpiScale));

            ImGui::EndTable();
          }

          if (ImGui::BeginChild("HWSeq",ImGui::GetContentRegionAvail(),ImGuiChildFlags_Border,ImGuiWindowFlags_MenuBar)) {
            ImGui::BeginMenuBar();
            ImGui::Text(_("Hardware Sequence"));
            ImGui::EndMenuBar();

            if (ins->gb.hwSeqLen>0) if (ImGui::BeginTable("HWSeqList",3)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
              int curFrame=0;
              ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
              ImGui::TableNextColumn();
              ImGui::Text(_("Tick"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Command"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Move/Remove"));
              for (int i=0; i<ins->gb.hwSeqLen; i++) {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::Text("%d (#%d)",curFrame,i);
                ImGui::TableNextColumn();
                ImGui::PushID(i);
                if (ins->gb.hwSeq[i].cmd>=DivInstrumentGB::DIV_GB_HWCMD_MAX) {
                  ins->gb.hwSeq[i].cmd=0;
                }
                int cmd=ins->gb.hwSeq[i].cmd;
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::Combo("##HWSeqCmd",&cmd,LocalizedComboGetter,gbHWSeqCmdTypes,DivInstrumentGB::DIV_GB_HWCMD_MAX)) {
                  if (ins->gb.hwSeq[i].cmd!=cmd) {
                    ins->gb.hwSeq[i].cmd=cmd;
                    ins->gb.hwSeq[i].data=0;
                  }
                }
                bool somethingChanged=false;
                switch (ins->gb.hwSeq[i].cmd) {
                  case DivInstrumentGB::DIV_GB_HWCMD_ENVELOPE: {
                    int hwsVol=(ins->gb.hwSeq[i].data&0xf0)>>4;
                    bool hwsDir=ins->gb.hwSeq[i].data&8;
                    int hwsLen=ins->gb.hwSeq[i].data&7;
                    int hwsSoundLen=ins->gb.hwSeq[i].data>>8;

                    if (CWSliderInt(_("Volume"),&hwsVol,0,15)) {
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Env Length"),&hwsLen,0,7)) {
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Sound Length"),&hwsSoundLen,0,64,hwsSoundLen>63?_("Infinity"):"%d")) {
                      somethingChanged=true;
                    }
                    if (ImGui::RadioButton(_("Up"),hwsDir)) { PARAMETER
                      hwsDir=true;
                      somethingChanged=true;
                    }
                    ImGui::SameLine();
                    if (ImGui::RadioButton(_("Down"),!hwsDir)) { PARAMETER
                      hwsDir=false;
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->gb.hwSeq[i].data=(hwsLen&7)|(hwsDir?8:0)|(hwsVol<<4)|(hwsSoundLen<<8);
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentGB::DIV_GB_HWCMD_SWEEP: {
                    int hwsShift=ins->gb.hwSeq[i].data&7;
                    int hwsSpeed=(ins->gb.hwSeq[i].data&0x70)>>4;
                    bool hwsDir=ins->gb.hwSeq[i].data&8;

                    if (CWSliderInt(_("Shift"),&hwsShift,0,7)) {
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Speed"),&hwsSpeed,0,7)) {
                      somethingChanged=true;
                    }

                    if (ImGui::RadioButton(_("Up"),!hwsDir)) { PARAMETER
                      hwsDir=false;
                      somethingChanged=true;
                    }
                    ImGui::SameLine();
                    if (ImGui::RadioButton(_("Down"),hwsDir)) { PARAMETER
                      hwsDir=true;
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->gb.hwSeq[i].data=(hwsShift&7)|(hwsDir?8:0)|(hwsSpeed<<4);
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentGB::DIV_GB_HWCMD_WAIT: {
                    int len=ins->gb.hwSeq[i].data+1;
                    curFrame+=ins->gb.hwSeq[i].data+1;

                    if (ImGui::InputInt(_("Ticks"),&len,1,4)) {
                      if (len<1) len=1;
                      if (len>255) len=256;
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->gb.hwSeq[i].data=len-1;
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentGB::DIV_GB_HWCMD_WAIT_REL:
                    curFrame++;
                    break;
                  case DivInstrumentGB::DIV_GB_HWCMD_LOOP:
                  case DivInstrumentGB::DIV_GB_HWCMD_LOOP_REL: {
                    int pos=ins->gb.hwSeq[i].data;

                    if (ImGui::InputInt(_("Position"),&pos,1,1)) {
                      if (pos<0) pos=0;
                      if (pos>(ins->gb.hwSeqLen-1)) pos=(ins->gb.hwSeqLen-1);
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->gb.hwSeq[i].data=pos;
                      PARAMETER;
                    }
                    break;
                  }
                  default:
                    break;
                }
                ImGui::PopID();
                ImGui::TableNextColumn();
                ImGui::PushID(i+512);
                if (ImGui::Button(ICON_FA_CHEVRON_UP "##HWCmdUp")) {
                  if (i>0) {
                    e->lockEngine([ins,i]() {
                      ins->gb.hwSeq[i-1].cmd^=ins->gb.hwSeq[i].cmd;
                      ins->gb.hwSeq[i].cmd^=ins->gb.hwSeq[i-1].cmd;
                      ins->gb.hwSeq[i-1].cmd^=ins->gb.hwSeq[i].cmd;

                      ins->gb.hwSeq[i-1].data^=ins->gb.hwSeq[i].data;
                      ins->gb.hwSeq[i].data^=ins->gb.hwSeq[i-1].data;
                      ins->gb.hwSeq[i-1].data^=ins->gb.hwSeq[i].data;
                    });
                  }
                  MARK_MODIFIED;
                }
                ImGui::SameLine();
                if (ImGui::Button(ICON_FA_CHEVRON_DOWN "##HWCmdDown")) {
                  if (i<ins->gb.hwSeqLen-1) {
                    e->lockEngine([ins,i]() {
                      ins->gb.hwSeq[i+1].cmd^=ins->gb.hwSeq[i].cmd;
                      ins->gb.hwSeq[i].cmd^=ins->gb.hwSeq[i+1].cmd;
                      ins->gb.hwSeq[i+1].cmd^=ins->gb.hwSeq[i].cmd;

                      ins->gb.hwSeq[i+1].data^=ins->gb.hwSeq[i].data;
                      ins->gb.hwSeq[i].data^=ins->gb.hwSeq[i+1].data;
                      ins->gb.hwSeq[i+1].data^=ins->gb.hwSeq[i].data;
                    });
                  }
                  MARK_MODIFIED;
                }
                ImGui::SameLine();
                pushDestColor();
                if (ImGui::Button(ICON_FA_TIMES "##HWCmdDel")) {
                  for (int j=i; j<ins->gb.hwSeqLen-1; j++) {
                    ins->gb.hwSeq[j].cmd=ins->gb.hwSeq[j+1].cmd;
                    ins->gb.hwSeq[j].data=ins->gb.hwSeq[j+1].data;
                  }
                  ins->gb.hwSeqLen--;
                }
                popDestColor();
                ImGui::PopID();
              }
              ImGui::EndTable();
            }

            if (ImGui::Button(ICON_FA_PLUS "##HWCmdAdd")) {
              if (ins->gb.hwSeqLen<255) {
                ins->gb.hwSeq[ins->gb.hwSeqLen].cmd=0;
                ins->gb.hwSeq[ins->gb.hwSeqLen].data=0;
                ins->gb.hwSeqLen++;
              }
            }
          }
          ImGui::EndChild();
          ImGui::EndDisabled();
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_C64 || ins->type==DIV_INS_SID2) if (ImGui::BeginTabItem((ins->type==DIV_INS_SID2)?"SID2":"C64")) {
          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Waveform"));
          ImGui::SameLine();
          pushToggleColors(ins->c64.triOn);
          if (ImGui::Button(_("tri"))) { PARAMETER
            ins->c64.triOn=!ins->c64.triOn;
          }
          popToggleColors();
          ImGui::SameLine();
          pushToggleColors(ins->c64.sawOn);
          if (ImGui::Button(_("saw"))) { PARAMETER
            ins->c64.sawOn=!ins->c64.sawOn;
          }
          popToggleColors();
          ImGui::SameLine();
          pushToggleColors(ins->c64.pulseOn);
          if (ImGui::Button(_("pulse"))) { PARAMETER
            ins->c64.pulseOn=!ins->c64.pulseOn;
          }
          popToggleColors();
          ImGui::SameLine();
          pushToggleColors(ins->c64.noiseOn);
          if (ImGui::Button(_("noise"))) { PARAMETER
            ins->c64.noiseOn=!ins->c64.noiseOn;
          }
          popToggleColors();

          ImVec2 sliderSize=ImVec2(20.0f*dpiScale,128.0*dpiScale);

          if (ImGui::BeginTable("C64EnvParams",5,ImGuiTableFlags_NoHostExtendX)) {
            ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
            ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
            ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
            ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
            ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthStretch);

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            CENTER_TEXT("A");
            ImGui::TextUnformatted("A");
            ImGui::TableNextColumn();
            CENTER_TEXT("D");
            ImGui::TextUnformatted("D");
            ImGui::TableNextColumn();
            CENTER_TEXT("S");
            ImGui::TextUnformatted("S");
            ImGui::TableNextColumn();
            CENTER_TEXT("R");
            ImGui::TextUnformatted("R");
            ImGui::TableNextColumn();
            CENTER_TEXT(_("Envelope"));
            ImGui::TextUnformatted(_("Envelope"));

            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWVSliderScalar("##Attack",sliderSize,ImGuiDataType_U8,&ins->c64.a,&_ZERO,&_FIFTEEN)); rightClickable
            ImGui::TableNextColumn();
            P(CWVSliderScalar("##Decay",sliderSize,ImGuiDataType_U8,&ins->c64.d,&_ZERO,&_FIFTEEN)); rightClickable
            ImGui::TableNextColumn();
            P(CWVSliderScalar("##Sustain",sliderSize,ImGuiDataType_U8,&ins->c64.s,&_ZERO,&_FIFTEEN)); rightClickable
            ImGui::TableNextColumn();
            P(CWVSliderScalar("##Release",sliderSize,ImGuiDataType_U8,&ins->c64.r,&_ZERO,&_FIFTEEN)); rightClickable
            ImGui::TableNextColumn();
            drawFMEnv((ins->type==DIV_INS_SID2)?(15-ins->sid2.volume):0,16-ins->c64.a,16-ins->c64.d,15-ins->c64.r,15-ins->c64.r,15-ins->c64.s,0,0,0,15,16,15,ImVec2(ImGui::GetContentRegionAvail().x,sliderSize.y),ins->type);

            ImGui::EndTable();
          }

          P(CWSliderScalar(_("Duty"),ImGuiDataType_U16,&ins->c64.duty,&_ZERO,&_FOUR_THOUSAND_NINETY_FIVE)); rightClickable

          bool resetDuty=ins->c64.resetDuty;
          if (ImGui::Checkbox(_("Reset duty on new note"),&resetDuty)) { PARAMETER
            ins->c64.resetDuty=resetDuty;
          }

          bool ringMod=ins->c64.ringMod;
          if (ImGui::Checkbox(_("Ring Modulation"),&ringMod)) { PARAMETER
            ins->c64.ringMod=ringMod;
          }
          bool oscSync=ins->c64.oscSync;
          if (ImGui::Checkbox(_("Oscillator Sync"),&oscSync)) { PARAMETER
            ins->c64.oscSync=oscSync;
          }

          P(ImGui::Checkbox(_("Enable filter"),&ins->c64.toFilter));
          P(ImGui::Checkbox(_("Initialize filter"),&ins->c64.initFilter));
          
          if (ins->type==DIV_INS_SID2) {
            P(CWSliderScalar(_("Cutoff"),ImGuiDataType_U16,&ins->c64.cut,&_ZERO,&_FOUR_THOUSAND_NINETY_FIVE)); rightClickable
            P(CWSliderScalar(_("Resonance"),ImGuiDataType_U8,&ins->c64.res,&_ZERO,&_TWO_HUNDRED_FIFTY_FIVE)); rightClickable
          } else {
            P(CWSliderScalar(_("Cutoff"),ImGuiDataType_U16,&ins->c64.cut,&_ZERO,&_TWO_THOUSAND_FORTY_SEVEN)); rightClickable
            P(CWSliderScalar(_("Resonance"),ImGuiDataType_U8,&ins->c64.res,&_ZERO,&_FIFTEEN)); rightClickable
          }

          ImGui::AlignTextToFramePadding();
          ImGui::Text(_("Filter Mode"));
          ImGui::SameLine();
          pushToggleColors(ins->c64.lp);
          if (ImGui::Button(_("low"))) { PARAMETER
            ins->c64.lp=!ins->c64.lp;
          }
          popToggleColors();
          ImGui::SameLine();
          pushToggleColors(ins->c64.bp);
          if (ImGui::Button(_("band"))) { PARAMETER
            ins->c64.bp=!ins->c64.bp;
          }
          popToggleColors();
          ImGui::SameLine();
          pushToggleColors(ins->c64.hp);
          if (ImGui::Button(_("high"))) { PARAMETER
            ins->c64.hp=!ins->c64.hp;
          }
          popToggleColors();
          if (ins->type!=DIV_INS_SID2) {
            ImGui::SameLine();
            pushToggleColors(ins->c64.ch3off);
            if (ImGui::Button(_("ch3off"))) { PARAMETER
              ins->c64.ch3off=!ins->c64.ch3off;
            }
            popToggleColors();
          }

          if (ins->type==DIV_INS_SID2) {
            P(CWSliderScalar(_("Noise Mode"),ImGuiDataType_U8,&ins->sid2.noiseMode,&_ZERO,&_THREE));
            P(CWSliderScalar(_("Wave Mix Mode"),ImGuiDataType_U8,&ins->sid2.mixMode,&_ZERO,&_THREE,sid2WaveMixModes[ins->sid2.mixMode&3]));
          }

          if (ImGui::Checkbox(_("Absolute Cutoff Macro"),&ins->c64.filterIsAbs)) {
            ins->temp.vZoom[DIV_MACRO_ALG]=-1;
            PARAMETER;
          }
          if (ImGui::Checkbox(_("Absolute Duty Macro"),&ins->c64.dutyIsAbs)) {
            ins->temp.vZoom[DIV_MACRO_DUTY]=-1;
            PARAMETER;
          }

          if (ins->type!=DIV_INS_SID2) {
            P(ImGui::Checkbox(_("Don't test before new note"),&ins->c64.noTest));
          }
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_SU) if (ImGui::BeginTabItem("Sound Unit")) {
          P(ImGui::Checkbox(_("Switch roles of frequency and phase reset timer"),&ins->su.switchRoles));
          if (ImGui::BeginChild("HWSeqSU",ImGui::GetContentRegionAvail(),ImGuiChildFlags_Border,ImGuiWindowFlags_MenuBar)) {
            ImGui::BeginMenuBar();
            ImGui::Text(_("Hardware Sequence"));
            ImGui::EndMenuBar();

            if (ins->su.hwSeqLen>0) if (ImGui::BeginTable("HWSeqListSU",3)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed);
              int curFrame=0;
              ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
              ImGui::TableNextColumn();
              ImGui::Text(_("Tick"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Command"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Move/Remove"));
              for (int i=0; i<ins->su.hwSeqLen; i++) {
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::Text("%d (#%d)",curFrame,i);
                ImGui::TableNextColumn();
                ImGui::PushID(i);
                if (ins->su.hwSeq[i].cmd>=DivInstrumentSoundUnit::DIV_SU_HWCMD_MAX) {
                  ins->su.hwSeq[i].cmd=0;
                }
                int cmd=ins->su.hwSeq[i].cmd;
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::Combo("##HWSeqCmd",&cmd,LocalizedComboGetter,suHWSeqCmdTypes,DivInstrumentSoundUnit::DIV_SU_HWCMD_MAX)) {
                  if (ins->su.hwSeq[i].cmd!=cmd) {
                    ins->su.hwSeq[i].cmd=cmd;
                    ins->su.hwSeq[i].val=0;
                    ins->su.hwSeq[i].bound=0;
                    ins->su.hwSeq[i].speed=0;
                  }
                }
                bool somethingChanged=false;
                switch (ins->su.hwSeq[i].cmd) {
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_VOL: {
                    int swPeriod=ins->su.hwSeq[i].speed;
                    int swBound=ins->su.hwSeq[i].bound;
                    int swVal=ins->su.hwSeq[i].val&31;
                    bool swDir=ins->su.hwSeq[i].val&32;
                    bool swLoop=ins->su.hwSeq[i].val&64;
                    bool swInvert=ins->su.hwSeq[i].val&128;

                    if (ImGui::InputInt(_("Period"),&swPeriod,1,16)) {
                      if (swPeriod<0) swPeriod=0;
                      if (swPeriod>65535) swPeriod=65535;
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Amount"),&swVal,0,31)) {
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Bound"),&swBound,0,255)) {
                      somethingChanged=true;
                    }
                    if (ImGui::RadioButton(_("Up"),swDir)) { PARAMETER
                      swDir=true;
                      somethingChanged=true;
                    }
                    ImGui::SameLine();
                    if (ImGui::RadioButton(_("Down"),!swDir)) { PARAMETER
                      swDir=false;
                      somethingChanged=true;
                    }
                    if (ImGui::Checkbox(_("Loop"),&swLoop)) { PARAMETER
                      somethingChanged=true;
                    }
                    ImGui::SameLine();
                    if (ImGui::Checkbox(_("Flip"),&swInvert)) { PARAMETER
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->su.hwSeq[i].speed=swPeriod;
                      ins->su.hwSeq[i].bound=swBound;
                      ins->su.hwSeq[i].val=(swVal&31)|(swDir?32:0)|(swLoop?64:0)|(swInvert?128:0);
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_PITCH:
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_CUT: {
                    int swPeriod=ins->su.hwSeq[i].speed;
                    int swBound=ins->su.hwSeq[i].bound;
                    int swVal=ins->su.hwSeq[i].val&127;
                    bool swDir=ins->su.hwSeq[i].val&128;

                    if (ImGui::InputInt(_("Period"),&swPeriod,1,16)) {
                      if (swPeriod<0) swPeriod=0;
                      if (swPeriod>65535) swPeriod=65535;
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Amount"),&swVal,0,31)) {
                      somethingChanged=true;
                    }
                    if (CWSliderInt(_("Bound"),&swBound,0,255)) {
                      somethingChanged=true;
                    }
                    if (ImGui::RadioButton(_("Up"),swDir)) { PARAMETER
                      swDir=true;
                      somethingChanged=true;
                    }
                    ImGui::SameLine();
                    if (ImGui::RadioButton(_("Down"),!swDir)) { PARAMETER
                      swDir=false;
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->su.hwSeq[i].speed=swPeriod;
                      ins->su.hwSeq[i].bound=swBound;
                      ins->su.hwSeq[i].val=(swVal&127)|(swDir?128:0);
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_WAIT: {
                    int len=ins->su.hwSeq[i].val+1;
                    curFrame+=ins->su.hwSeq[i].val+1;

                    if (ImGui::InputInt(_("Ticks"),&len)) {
                      if (len<1) len=1;
                      if (len>255) len=256;
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->su.hwSeq[i].val=len-1;
                      PARAMETER;
                    }
                    break;
                  }
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_WAIT_REL:
                    curFrame++;
                    break;
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_LOOP:
                  case DivInstrumentSoundUnit::DIV_SU_HWCMD_LOOP_REL: {
                    int pos=ins->su.hwSeq[i].val;

                    if (ImGui::InputInt(_("Position"),&pos,1,4)) {
                      if (pos<0) pos=0;
                      if (pos>(ins->su.hwSeqLen-1)) pos=(ins->su.hwSeqLen-1);
                      somethingChanged=true;
                    }

                    if (somethingChanged) {
                      ins->su.hwSeq[i].val=pos;
                      PARAMETER;
                    }
                    break;
                  }
                  default:
                    break;
                }
                ImGui::PopID();
                ImGui::TableNextColumn();
                ImGui::PushID(i+512);
                if (ImGui::Button(ICON_FA_CHEVRON_UP "##HWCmdUp")) {
                  if (i>0) {
                    e->lockEngine([ins,i]() {
                      ins->su.hwSeq[i-1].cmd^=ins->su.hwSeq[i].cmd;
                      ins->su.hwSeq[i].cmd^=ins->su.hwSeq[i-1].cmd;
                      ins->su.hwSeq[i-1].cmd^=ins->su.hwSeq[i].cmd;

                      ins->su.hwSeq[i-1].speed^=ins->su.hwSeq[i].speed;
                      ins->su.hwSeq[i].speed^=ins->su.hwSeq[i-1].speed;
                      ins->su.hwSeq[i-1].speed^=ins->su.hwSeq[i].speed;

                      ins->su.hwSeq[i-1].val^=ins->su.hwSeq[i].val;
                      ins->su.hwSeq[i].val^=ins->su.hwSeq[i-1].val;
                      ins->su.hwSeq[i-1].val^=ins->su.hwSeq[i].val;

                      ins->su.hwSeq[i-1].bound^=ins->su.hwSeq[i].bound;
                      ins->su.hwSeq[i].bound^=ins->su.hwSeq[i-1].bound;
                      ins->su.hwSeq[i-1].bound^=ins->su.hwSeq[i].bound;
                    });
                  }
                  MARK_MODIFIED;
                }
                ImGui::SameLine();
                if (ImGui::Button(ICON_FA_CHEVRON_DOWN "##HWCmdDown")) {
                  if (i<ins->su.hwSeqLen-1) {
                    e->lockEngine([ins,i]() {
                      ins->su.hwSeq[i+1].cmd^=ins->su.hwSeq[i].cmd;
                      ins->su.hwSeq[i].cmd^=ins->su.hwSeq[i+1].cmd;
                      ins->su.hwSeq[i+1].cmd^=ins->su.hwSeq[i].cmd;

                      ins->su.hwSeq[i+1].speed^=ins->su.hwSeq[i].speed;
                      ins->su.hwSeq[i].speed^=ins->su.hwSeq[i+1].speed;
                      ins->su.hwSeq[i+1].speed^=ins->su.hwSeq[i].speed;

                      ins->su.hwSeq[i+1].val^=ins->su.hwSeq[i].val;
                      ins->su.hwSeq[i].val^=ins->su.hwSeq[i+1].val;
                      ins->su.hwSeq[i+1].val^=ins->su.hwSeq[i].val;

                      ins->su.hwSeq[i+1].bound^=ins->su.hwSeq[i].bound;
                      ins->su.hwSeq[i].bound^=ins->su.hwSeq[i+1].bound;
                      ins->su.hwSeq[i+1].bound^=ins->su.hwSeq[i].bound;
                    });
                  }
                  MARK_MODIFIED;
                }
                ImGui::SameLine();
                pushDestColor();
                if (ImGui::Button(ICON_FA_TIMES "##HWCmdDel")) {
                  for (int j=i; j<ins->su.hwSeqLen-1; j++) {
                    ins->su.hwSeq[j].cmd=ins->su.hwSeq[j+1].cmd;
                    ins->su.hwSeq[j].speed=ins->su.hwSeq[j+1].speed;
                    ins->su.hwSeq[j].val=ins->su.hwSeq[j+1].val;
                    ins->su.hwSeq[j].bound=ins->su.hwSeq[j+1].bound;
                  }
                  ins->su.hwSeqLen--;
                }
                popDestColor();
                ImGui::PopID();
              }
              ImGui::EndTable();
            }

            if (ImGui::Button(ICON_FA_PLUS "##HWCmdAdd")) {
              if (ins->su.hwSeqLen<255) {
                ins->su.hwSeq[ins->su.hwSeqLen].cmd=0;
                ins->su.hwSeq[ins->su.hwSeqLen].speed=0;
                ins->su.hwSeq[ins->su.hwSeqLen].val=0;
                ins->su.hwSeq[ins->su.hwSeqLen].bound=0;
                ins->su.hwSeqLen++;
              }
            }
          }
          ImGui::EndChild();
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_SID3) {
          drawInsSID3(ins);
        }
        if (ins->type==DIV_INS_MSM6258 ||
            ins->type==DIV_INS_MSM6295 ||
            ins->type==DIV_INS_ADPCMA ||
            ins->type==DIV_INS_ADPCMB ||
            ins->type==DIV_INS_SEGAPCM ||
            ins->type==DIV_INS_QSOUND ||
            ins->type==DIV_INS_YMZ280B ||
            ins->type==DIV_INS_RF5C68 ||
            ins->type==DIV_INS_AMIGA ||
            ins->type==DIV_INS_MULTIPCM ||
            ins->type==DIV_INS_SU ||
            ins->type==DIV_INS_SNES ||
            ins->type==DIV_INS_ES5506 ||
            ins->type==DIV_INS_K007232 ||
            ins->type==DIV_INS_GA20 ||
            ins->type==DIV_INS_K053260 ||
            ins->type==DIV_INS_C140 ||
            ins->type==DIV_INS_C219 ||
            ins->type==DIV_INS_NDS ||
            ins->type==DIV_INS_GBA_DMA ||
            ins->type==DIV_INS_GBA_MINMOD ||
            ins->type==DIV_INS_SUPERVISION) {
          insTabSample(ins);
        }
        if (ins->type==DIV_INS_N163) if (ImGui::BeginTabItem("Namco 163")) {
          bool preLoad=ins->n163.waveMode&0x1;
          if (ImGui::Checkbox(_("Load waveform"),&preLoad)) { PARAMETER
            ins->n163.waveMode=(ins->n163.waveMode&~0x1)|(preLoad?0x1:0);
          }

          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("when enabled, a waveform will be loaded into RAM.\nwhen disabled, only the offset and length change."));
          }

          if (preLoad) {
            if (ImGui::InputInt(_("Waveform##WAVE"),&ins->n163.wave,1,10)) { PARAMETER
              if (ins->n163.wave<0) ins->n163.wave=0;
              if (ins->n163.wave>=e->song.waveLen) ins->n163.wave=e->song.waveLen-1;
            }
          }

          ImGui::Separator();

          P(ImGui::Checkbox(_("Per-channel wave position/length"),&ins->n163.perChanPos));

          if (ins->n163.perChanPos) {
            if (ImGui::BeginTable("N1PerChPos",3)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.5f);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,0.5f);

              ImGui::TableNextRow(ImGuiTableRowFlags_Headers);
              ImGui::TableNextColumn();
              ImGui::Text(_("Ch"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Position"));
              ImGui::TableNextColumn();
              ImGui::Text(_("Length"));

              for (int i=0; i<8; i++) {
                ImGui::PushID(64+i);
                ImGui::TableNextRow();
                ImGui::TableNextColumn();
                ImGui::Dummy(ImVec2(dpiScale,ImGui::GetFrameHeightWithSpacing()));
                ImGui::SameLine();
                ImGui::Text("%d",i+1);

                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::InputInt("##pcOff",&ins->n163.wavePosCh[i],1,16)) { PARAMETER
                  if (ins->n163.wavePosCh[i]<0) ins->n163.wavePosCh[i]=0;
                  if (ins->n163.wavePosCh[i]>255) ins->n163.wavePosCh[i]=255;
                }

                ImGui::TableNextColumn();
                ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
                if (ImGui::InputInt("##pcLen",&ins->n163.waveLenCh[i],4,16)) { PARAMETER
                  if (ins->n163.waveLenCh[i]<0) ins->n163.waveLenCh[i]=0;
                  if (ins->n163.waveLenCh[i]>252) ins->n163.waveLenCh[i]=252;
                  ins->n163.waveLenCh[i]&=0xfc;
                }
                ImGui::PopID();
              }

              ImGui::EndTable();
            }
          } else {
            if (ImGui::InputInt("Position##WAVEPOS",&ins->n163.wavePos,1,16)) { PARAMETER
              if (ins->n163.wavePos<0) ins->n163.wavePos=0;
              if (ins->n163.wavePos>255) ins->n163.wavePos=255;
            }
            if (ImGui::InputInt("Length##WAVELEN",&ins->n163.waveLen,4,16)) { PARAMETER
              if (ins->n163.waveLen<0) ins->n163.waveLen=0;
              if (ins->n163.waveLen>252) ins->n163.waveLen=252;
              ins->n163.waveLen&=0xfc;
            }
          }
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_FDS) if (ImGui::BeginTabItem("FDS")) {
          float modTable[32];
          int modTableInt[256];
          ImGui::Checkbox(_("Compatibility mode"),&ins->fds.initModTableWithFirstWave);
          if (ImGui::IsItemHovered()) {
            ImGui::SetTooltip(_("only use for compatibility with .dmf modules!\n- initializes modulation table with first wavetable\n- does not alter modulation parameters on instrument change"));
          }
          if (ImGui::InputInt(_("Modulation depth"),&ins->fds.modDepth,1,4)) {
            if (ins->fds.modDepth<0) ins->fds.modDepth=0;
            if (ins->fds.modDepth>63) ins->fds.modDepth=63;
          }
          if (ImGui::InputInt(_("Modulation speed"),&ins->fds.modSpeed,1,4)) {
            if (ins->fds.modSpeed<0) ins->fds.modSpeed=0;
            if (ins->fds.modSpeed>4095) ins->fds.modSpeed=4095;
          }
          ImGui::Text(_("Modulation table"));
          for (int i=0; i<32; i++) {
            modTable[i]=ins->fds.modTable[i];
            modTableInt[i]=ins->fds.modTable[i];
          }
          ImVec2 modTableSize=ImVec2(ImGui::GetContentRegionAvail().x,96.0f*dpiScale);
          PlotCustom("##ModTable",modTable,32,0,NULL,-4,3,modTableSize,sizeof(float),ImVec4(1.0f,1.0f,1.0f,1.0f),0,NULL,NULL,true);
          if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
            macroDragStart=ImGui::GetItemRectMin();
            macroDragAreaSize=modTableSize;
            macroDragMin=-4;
            macroDragMax=3;
            macroDragBitMode=false;
            macroDragInitialValueSet=false;
            macroDragInitialValue=false;
            macroDragLen=32;
            macroDragActive=true;
            macroDragCTarget=(unsigned char*)ins->fds.modTable;
            macroDragChar=true;
            macroDragLineMode=false;
            macroDragLineInitial=ImVec2(0,0);
            processDrags(ImGui::GetMousePos().x,ImGui::GetMousePos().y);
            ImGui::InhibitInertialScroll();
          }

          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x); // wavetable text input size found here
          if (ImGui::InputText("##MMLModTable",&mmlStringModTable)) {
            int discardIt=0;
            memset(modTableInt,0,256*sizeof(int));
            decodeMMLStrW(mmlStringModTable,modTableInt,discardIt,-4,3,false);
            for (int i=0; i<32; i++) {
              if (i>=discardIt) {
                modTableInt[i]=0;
              } else {
                if (modTableInt[i]<-4) modTableInt[i]=-4;
                if (modTableInt[i]>3) modTableInt[i]=3;
              }
              ins->fds.modTable[i]=modTableInt[i];
            }
            MARK_MODIFIED;
          }
          if (!ImGui::IsItemActive()) {
            encodeMMLStr(mmlStringModTable,modTableInt,32,-1,-1,false);
          }
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_VBOY) if (ImGui::BeginTabItem("Virtual Boy")) {
          float modTable[32];
          int modTableInt[256];
          P(ImGui::Checkbox(_("Set modulation table (channel 5 only)"),&ins->fds.initModTableWithFirstWave));

          ImGui::BeginDisabled(!ins->fds.initModTableWithFirstWave);
          for (int i=0; i<32; i++) {
            modTable[i]=ins->fds.modTable[i];
            modTableInt[i]=modTableHex?((unsigned char)ins->fds.modTable[i]):ins->fds.modTable[i];
          }
          ImVec2 modTableSize=ImVec2(ImGui::GetContentRegionAvail().x,256.0f*dpiScale);
          PlotCustom("##ModTable",modTable,32,0,NULL,-128,127,modTableSize,sizeof(float),ImVec4(1.0f,1.0f,1.0f,1.0f),0,NULL,NULL,true);
          if (ImGui::IsItemClicked(ImGuiMouseButton_Left)) {
            macroDragStart=ImGui::GetItemRectMin();
            macroDragAreaSize=modTableSize;
            macroDragMin=-128;
            macroDragMax=127;
            macroDragBitMode=false;
            macroDragInitialValueSet=false;
            macroDragInitialValue=false;
            macroDragLen=32;
            macroDragActive=true;
            macroDragCTarget=(unsigned char*)ins->fds.modTable;
            macroDragChar=true;
            macroDragLineMode=false;
            macroDragLineInitial=ImVec2(0,0);
            processDrags(ImGui::GetMousePos().x,ImGui::GetMousePos().y);
            ImGui::InhibitInertialScroll();
          }
          
          if (ImGui::Button(modTableHex?"Hex##MTHex":"Dec##MTHex")) {
            modTableHex=!modTableHex;
          }
          ImGui::SameLine();
          ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x); // wavetable text input size found here
          if (ImGui::InputText("##MMLModTable",&mmlStringModTable)) {
            int discardIt=0;
            memset(modTableInt,0,256*sizeof(int));
            decodeMMLStrW(mmlStringModTable,modTableInt,discardIt,modTableHex?0:-128,modTableHex?255:127,modTableHex);
            for (int i=0; i<32; i++) {
              if (i>=discardIt) {
                modTableInt[i]=0;
              } else {
                if (modTableInt[i]>=128) modTableInt[i]-=256;
              }
              ins->fds.modTable[i]=modTableInt[i];
            }
            MARK_MODIFIED;
          }
          if (!ImGui::IsItemActive()) {
            encodeMMLStr(mmlStringModTable,modTableInt,32,-1,-1,modTableHex);
          }
          ImGui::SameLine();

          ImGui::EndDisabled();
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_ES5506) if (ImGui::BeginTabItem("ES5506")) {
          if (ImGui::BeginTable("ESParams",2,ImGuiTableFlags_SizingStretchSame)) {
            ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0);
            ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0);
            // filter
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Filter Mode"),ImGuiDataType_U8,&ins->es5506.filter.mode,&_ZERO,&_THREE,es5506FilterModes[ins->es5506.filter.mode&3]));
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Filter K1"),ImGuiDataType_U16,&ins->es5506.filter.k1,&_ZERO,&_SIXTY_FIVE_THOUSAND_FIVE_HUNDRED_THIRTY_FIVE)); rightClickable
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Filter K2"),ImGuiDataType_U16,&ins->es5506.filter.k2,&_ZERO,&_SIXTY_FIVE_THOUSAND_FIVE_HUNDRED_THIRTY_FIVE)); rightClickable
            // envelope
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Envelope length"),ImGuiDataType_U16,&ins->es5506.envelope.ecount,&_ZERO,&_FIVE_HUNDRED_ELEVEN)); rightClickable
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Left Volume Ramp"),ImGuiDataType_S8,&ins->es5506.envelope.lVRamp,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Right Volume Ramp"),ImGuiDataType_S8,&ins->es5506.envelope.rVRamp,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Filter K1 Ramp"),ImGuiDataType_S8,&ins->es5506.envelope.k1Ramp,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable
            ImGui::TableNextColumn();
            P(CWSliderScalar(_("Filter K2 Ramp"),ImGuiDataType_S8,&ins->es5506.envelope.k2Ramp,&_MINUS_ONE_HUNDRED_TWENTY_EIGHT,&_ONE_HUNDRED_TWENTY_SEVEN)); rightClickable
            ImGui::TableNextRow();
            ImGui::TableNextColumn();
            ImGui::Checkbox(_("K1 Ramp Slowdown"),&ins->es5506.envelope.k1Slow);
            ImGui::TableNextColumn();
            ImGui::Checkbox(_("K2 Ramp Slowdown"),&ins->es5506.envelope.k2Slow);
            ImGui::EndTable();
          }
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_MULTIPCM) {
          if (ImGui::BeginTabItem("MultiPCM")) {
            ImVec2 sliderSize=ImVec2(20.0f*dpiScale,128.0*dpiScale);
            if (ImGui::BeginTable("MultiPCMADSRParams",7,ImGuiTableFlags_NoHostExtendX)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c5",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c6",ImGuiTableColumnFlags_WidthStretch);

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              CENTER_TEXT("AR");
              ImGui::TextUnformatted("AR");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Attack Rate"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("D1R");
              ImGui::TextUnformatted("D1R");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Decay 1 Rate"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("DL");
              ImGui::TextUnformatted("DL");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Decay Level"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("D2R");
              ImGui::TextUnformatted("D2R");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Decay 2 Rate"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("RR");
              ImGui::TextUnformatted("RR");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Release Rate"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("RC");
              ImGui::TextUnformatted("RC");
              if (ImGui::IsItemHovered()) {
                  ImGui::SetTooltip(_("Rate Correction"));
              }
              ImGui::TableNextColumn();
              CENTER_TEXT(_("Envelope"));
              ImGui::TextUnformatted(_("Envelope"));

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Attack Rate",sliderSize,ImGuiDataType_U8,&ins->multipcm.ar,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Decay 1 Rate",sliderSize,ImGuiDataType_U8,&ins->multipcm.d1r,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Decay Level",sliderSize,ImGuiDataType_U8,&ins->multipcm.dl,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Decay 2 Rate",sliderSize,ImGuiDataType_U8,&ins->multipcm.d2r,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Release Rate",sliderSize,ImGuiDataType_U8,&ins->multipcm.rr,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Rate Correction",sliderSize,ImGuiDataType_U8,&ins->multipcm.rc,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              drawFMEnv(0,ins->multipcm.ar,ins->multipcm.d1r,ins->multipcm.d2r,ins->multipcm.rr,ins->multipcm.dl,0,0,0,127,15,15,ImVec2(ImGui::GetContentRegionAvail().x,sliderSize.y),ins->type);
              ImGui::EndTable();
            }
            if (ImGui::BeginTable("MultiPCMLFOParams",3,ImGuiTableFlags_SizingStretchSame)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthStretch,0.0);
              ImGui::TableNextColumn();
              P(CWSliderScalar(_("LFO Rate"),ImGuiDataType_U8,&ins->multipcm.lfo,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWSliderScalar(_("PM Depth"),ImGuiDataType_U8,&ins->multipcm.vib,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWSliderScalar(_("AM Depth"),ImGuiDataType_U8,&ins->multipcm.am,&_ZERO,&_SEVEN)); rightClickable
              ImGui::EndTable();
            }
            P(ImGui::Checkbox(_("Damp"),&ins->multipcm.damp));
            if (ImGui::IsItemHovered()) {
              ImGui::SetTooltip(_("Only for OPL4 PCM."));
            }
            P(ImGui::Checkbox(_("Pseudo Reverb"),&ins->multipcm.pseudoReverb));
            if (ImGui::IsItemHovered()) {
              ImGui::SetTooltip(_("Only for OPL4 PCM."));
            }
            P(ImGui::Checkbox(_("LFO Reset"),&ins->multipcm.lfoReset));
            if (ImGui::IsItemHovered()) {
              ImGui::SetTooltip(_("Only for OPL4 PCM."));
            }
            P(ImGui::Checkbox(_("Disable volume change ramp"),&ins->multipcm.levelDirect));
            ImGui::EndTabItem();
          }
        }
        if (ins->type==DIV_INS_SNES) if (ImGui::BeginTabItem("SNES")) {
          P(ImGui::Checkbox(_("Use envelope"),&ins->snes.useEnv));
          ImVec2 sliderSize=ImVec2(20.0f*dpiScale,128.0*dpiScale);
          if (ins->snes.useEnv) {
            if (ImGui::BeginTable("SNESEnvParams",ins->snes.sus?6:5,ImGuiTableFlags_NoHostExtendX)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c2",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              if (ins->snes.sus) {
                ImGui::TableSetupColumn("c2x",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              }
              ImGui::TableSetupColumn("c3",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);
              ImGui::TableSetupColumn("c4",ImGuiTableColumnFlags_WidthStretch);

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              CENTER_TEXT("A");
              ImGui::TextUnformatted("A");
              ImGui::TableNextColumn();
              CENTER_TEXT("D");
              ImGui::TextUnformatted("D");
              ImGui::TableNextColumn();
              CENTER_TEXT("S");
              ImGui::TextUnformatted("S");
              if (ins->snes.sus) {
                ImGui::TableNextColumn();
                CENTER_TEXT("D2");
                ImGui::TextUnformatted("D2");
              }
              ImGui::TableNextColumn();
              CENTER_TEXT("R");
              ImGui::TextUnformatted("R");
              ImGui::TableNextColumn();
              CENTER_TEXT(_("Envelope"));
              ImGui::TextUnformatted(_("Envelope"));

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Attack",sliderSize,ImGuiDataType_U8,&ins->snes.a,&_ZERO,&_FIFTEEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Decay",sliderSize,ImGuiDataType_U8,&ins->snes.d,&_ZERO,&_SEVEN)); rightClickable
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Sustain",sliderSize,ImGuiDataType_U8,&ins->snes.s,&_ZERO,&_SEVEN)); rightClickable
              if (ins->snes.sus) {
                ImGui::TableNextColumn();
                P(CWVSliderScalar("##Decay2",sliderSize,ImGuiDataType_U8,&ins->snes.d2,&_ZERO,&_THIRTY_ONE)); rightClickable
              }
              ImGui::TableNextColumn();
              P(CWVSliderScalar("##Release",sliderSize,ImGuiDataType_U8,&ins->snes.r,&_ZERO,&_THIRTY_ONE)); rightClickable
              ImGui::TableNextColumn();
              drawFMEnv(0,ins->snes.a+1,1+ins->snes.d*2,ins->snes.sus?ins->snes.d2:ins->snes.r,ins->snes.sus?ins->snes.r:31,(14-ins->snes.s*2),(ins->snes.r==0 || (ins->snes.sus && ins->snes.d2==0)),0,0,7,16,31,ImVec2(ImGui::GetContentRegionAvail().x,sliderSize.y),ins->type);

              ImGui::EndTable();
            }
            ImGui::Text(_("Sustain/release mode:"));
            if (ImGui::RadioButton(_("Direct (cut on release)"),ins->snes.sus==0)) {
              ins->snes.sus=0;
            }
            if (ImGui::RadioButton(_("Effective (linear decrease)"),ins->snes.sus==1)) {
              ins->snes.sus=1;
            }
            if (ImGui::RadioButton(_("Effective (exponential decrease)"),ins->snes.sus==2)) {
              ins->snes.sus=2;
            }
            if (ImGui::RadioButton(_("Delayed (write R on release)"),ins->snes.sus==3)) {
              ins->snes.sus=3;
            }
          } else {
            if (ImGui::BeginTable("SNESGainParams",2,ImGuiTableFlags_NoHostExtendX)) {
              ImGui::TableSetupColumn("c0",ImGuiTableColumnFlags_WidthStretch);
              ImGui::TableSetupColumn("c1",ImGuiTableColumnFlags_WidthFixed,sliderSize.x);

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              CENTER_TEXT(_("Gain Mode"));
              ImGui::TextUnformatted(_("Gain Mode"));
              ImGui::TableNextColumn();
              CENTER_TEXT(_("Gain"));
              ImGui::TextUnformatted(_("Gain"));

              ImGui::TableNextRow();
              ImGui::TableNextColumn();
              if (ImGui::RadioButton(_("Direct"),ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DIRECT)) {
                ins->snes.gainMode=DivInstrumentSNES::GAIN_MODE_DIRECT;
                PARAMETER;
              }
              if (ImGui::RadioButton(_("Decrease (linear)"),ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DEC_LINEAR)) {
                ins->snes.gainMode=DivInstrumentSNES::GAIN_MODE_DEC_LINEAR;
                PARAMETER;
              }
              if (ImGui::RadioButton(_("Decrease (logarithmic)"),ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DEC_LOG)) {
                ins->snes.gainMode=DivInstrumentSNES::GAIN_MODE_DEC_LOG;
                PARAMETER;
              }
              if (ImGui::RadioButton(_("Increase (linear)"),ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_INC_LINEAR)) {
                ins->snes.gainMode=DivInstrumentSNES::GAIN_MODE_INC_LINEAR;
                PARAMETER;
              }
              if (ImGui::RadioButton(_("Increase (bent line)"),ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_INC_INVLOG)) {
                ins->snes.gainMode=DivInstrumentSNES::GAIN_MODE_INC_INVLOG;
                PARAMETER;
              }

              ImGui::TableNextColumn();
              unsigned char gainMax=(ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DIRECT)?127:31;
              if (ins->snes.gain>gainMax) ins->snes.gain=gainMax;
              P(CWVSliderScalar("##Gain",sliderSize,ImGuiDataType_U8,&ins->snes.gain,&_ZERO,&gainMax)); rightClickable

              ImGui::EndTable();
            }
            if (ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DEC_LINEAR || ins->snes.gainMode==DivInstrumentSNES::GAIN_MODE_DEC_LOG) {
              ImGui::TextWrapped(_("using decrease modes will not produce any sound at all, unless you know what you are doing.\nit is recommended to use the Gain macro for decrease instead."));
            }
          }
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_GB ||
            (ins->type==DIV_INS_AMIGA && ins->amiga.useWave) ||
            (ins->type==DIV_INS_GBA_DMA && ins->amiga.useWave) ||
            (ins->type==DIV_INS_X1_010 && !ins->amiga.useSample) ||
            ins->type==DIV_INS_N163 ||
            ins->type==DIV_INS_FDS ||
            (ins->type==DIV_INS_SWAN && !ins->amiga.useSample) ||
            (ins->type==DIV_INS_PCE && !ins->amiga.useSample) ||
            (ins->type==DIV_INS_VBOY) ||
            ins->type==DIV_INS_SCC ||
            ins->type==DIV_INS_SNES ||
            ins->type==DIV_INS_NAMCO ||
            ins->type==DIV_INS_SM8521 ||
            (ins->type==DIV_INS_GBA_MINMOD && ins->amiga.useWave)) 
        {
          insTabWavetable(ins);
        }
        if (ins->type<DIV_INS_MAX) if (ImGui::BeginTabItem(_("Macros"))) {
          // NEW CODE
          // this is only the first part of an insEdit refactor.
          // don't complain yet!
          int waveCount=MAX(1,e->song.waveLen-1);

          switch (ins->type) {
            case DIV_INS_STD:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Mode"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_FM:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_GB:
              if (ins->gb.softEnv) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Noise"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_C64:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,ins->c64.dutyIsAbs?0:-4095,4095,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,4,64,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,c64ShapeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Cutoff"),&ins->std.algMacro,ins->c64.filterIsAbs?0:-2047,2047,160,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Resonance"),&ins->std.ex2Macro,0,15,64,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter Mode"),&ins->std.ex1Macro,0,4,64,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true,filtModeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter Toggle"),&ins->std.ex3Macro,0,1,32,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Special"),&ins->std.ex4Macro,0,4,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,c64TestGateBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Attack"),&ins->std.ex5Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Decay"),&ins->std.ex6Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Sustain"),&ins->std.ex7Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Release"),&ins->std.ex8Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              break;
            case DIV_INS_AMIGA:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,64,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              if (ins->std.panLMacro.mode) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-16,16,63,uiColors[GUI_COLOR_MACRO_OTHER],false,macroQSoundMode));
                macroList.push_back(FurnaceGUIMacroDesc(_("Surround"),&ins->std.panRMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER],false,macroQSoundMode));
                macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_PCE:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,31,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_AY:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,31,160,uiColors[GUI_COLOR_MACRO_NOISE]));
                macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,3,48,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,ayShapeBits));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Envelope"),&ins->std.ex2Macro,0,4,64,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,true,ayEnvBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Num"),&ins->std.ex3Macro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Den"),&ins->std.algMacro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Force Period"),&ins->std.ex4Macro,0,4095,160,uiColors[GUI_COLOR_MACRO_PITCH]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Env Period"),&ins->std.ex5Macro,0,65535,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              break;
            case DIV_INS_AY8930:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,31,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,255,160,uiColors[GUI_COLOR_MACRO_NOISE]));
                macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,3,64,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,ayShapeBits));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.ex1Macro,0,8,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Envelope"),&ins->std.ex2Macro,0,4,64,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,true,ayEnvBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Num"),&ins->std.ex3Macro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Den"),&ins->std.algMacro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Force Period"),&ins->std.ex4Macro,0,65535,160,uiColors[GUI_COLOR_MACRO_PITCH]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Env Period"),&ins->std.ex5Macro,0,65535,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise AND Mask"),&ins->std.fbMacro,0,8,96,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise OR Mask"),&ins->std.fmsMacro,0,8,96,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              break;
            case DIV_INS_TIA:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,15,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_SAA1099:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Noise"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,2,64,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,ayShapeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Envelope"),&ins->std.ex1Macro,0,8,160,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,true,saaEnvBits));
              break;
            case DIV_INS_VIC:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("On/Off"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,15,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_PET:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,1,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,8,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_VRC6:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,0,7,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              if (ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              }
              break;
            case DIV_INS_OPLL:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Patch"),&ins->std.waveMacro,0,15,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_OPL:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,4,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_FDS:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,32,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Mod Depth"),&ins->std.ex1Macro,0,63,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Mod Speed"),&ins->std.ex2Macro,0,4095,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Mod Position"),&ins->std.ex3Macro,0,127,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              break;
            case DIV_INS_VBOY:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Length"),&ins->std.dutyMacro,0,7,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_N163:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Wave Pos"),&ins->std.dutyMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Wave Length"),&ins->std.ex1Macro,0,252,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              break;
            case DIV_INS_SCC:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_OPZ:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,32,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_POKEY:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("AUDCTL"),&ins->std.dutyMacro,0,8,160,uiColors[GUI_COLOR_MACRO_GLOBAL],false,NULL,NULL,true,pokeyCtlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,7,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_BEEPER: {
              bool zxPresent=false;

              for (int i=0; i<e->song.systemLen; i++) {
                if (e->song.system[i]==DIV_SYSTEM_SFX_BEEPER) {
                  zxPresent=true;
                  break;
                }
              }

              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,1,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (zxPresent) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Pulse Width"),&ins->std.dutyMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            }
            case DIV_INS_SWAN:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise"),&ins->std.dutyMacro,0,8,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_MIKEY:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Int"),&ins->std.dutyMacro,0,10,160,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true,mikeyFeedbackBits));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Load LFSR"),&ins->std.ex1Macro,0,12,160,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              break;
            case DIV_INS_VERA:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,0,63,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,3,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,macroVERAWaves,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_X1_010:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              if (ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(_("Envelope Mode"),&ins->std.ex1Macro,0,7,160,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,true,x1_010EnvBits));
                macroList.push_back(FurnaceGUIMacroDesc(_("Envelope"),&ins->std.ex2Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE],false,NULL,NULL,false,ayEnvBits));
                macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Num"),&ins->std.ex3Macro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
                macroList.push_back(FurnaceGUIMacroDesc(_("AutoEnv Den"),&ins->std.algMacro,0,15,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              }
              break;
            case DIV_INS_VRC6_SAW:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_ES5506: {
              float usesAmigaVol=true;
              for (int i=0; i<e->song.systemLen; i++) {
                if (e->song.system[i]==DIV_SYSTEM_ES5506) {
                  if (!e->song.systemFlags[i].getBool("amigaVol",false)) {
                    usesAmigaVol=false;
                    break;
                  }
                }
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,usesAmigaVol?64:4095,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter Mode"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,&macroHoverES5506FilterMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,4095,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,4095,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter K1"),&ins->std.ex1Macro,((ins->std.ex1Macro.mode==1)?(-65535):0),65535,160,uiColors[GUI_COLOR_MACRO_FILTER],false,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter K2"),&ins->std.ex2Macro,((ins->std.ex2Macro.mode==1)?(-65535):0),65535,160,uiColors[GUI_COLOR_MACRO_FILTER],false,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Outputs"),&ins->std.fbMacro,0,5,64,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.algMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,es5506ControlModes));
              break;
            }
            case DIV_INS_MULTIPCM:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-7,7,45,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("LFO Speed"),&ins->std.ex1Macro,0,7,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("LFO Vib Depth"),&ins->std.fmsMacro,0,7,160,uiColors[GUI_COLOR_MACRO_PITCH]));
              macroList.push_back(FurnaceGUIMacroDesc(_("LFO AM Depth"),&ins->std.amsMacro,0,7,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              break;
            case DIV_INS_SNES:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,31,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Special"),&ins->std.ex1Macro,0,5,96,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,snesModeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Gain"),&ins->std.ex2Macro,0,255,256,uiColors[GUI_COLOR_MACRO_VOLUME],false,NULL,macroHoverGain,false));
              break;
            case DIV_INS_SU:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Noise"),&ins->std.dutyMacro,0,127,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,7,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,macroSoundUnitWaves,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-127,127,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Cutoff"),&ins->std.ex1Macro,0,16383,160,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Resonance"),&ins->std.ex2Macro,0,255,160,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.ex3Macro,0,4,64,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true,suControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset Timer"),&ins->std.ex4Macro,0,65535,160,uiColors[GUI_COLOR_MACRO_PITCH])); // again reuse code from resonance macro but use ex4 instead
              break;
            case DIV_INS_NAMCO:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_OPL_DRUMS:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,4,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_OPM:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,32,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_NES:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Noise"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_MSM6258:
              macroList.push_back(FurnaceGUIMacroDesc(_("Freq Divider"),&ins->std.dutyMacro,0,2,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Clock Divider"),&ins->std.ex1Macro,0,1,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              break;
            case DIV_INS_MSM6295:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,8,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Freq Divider"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_ADPCMA:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,31,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Global Volume"),&ins->std.dutyMacro,0,63,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_ADPCMB:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_SEGAPCM:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,127,158,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_QSOUND:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,16383,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Echo Level"),&ins->std.dutyMacro,0,32767,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-16,16,63,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Surround"),&ins->std.panRMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Echo Feedback"),&ins->std.ex1Macro,0,16383,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Echo Length"),&ins->std.ex2Macro,0,2725,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              break;
            case DIV_INS_YMZ280B:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-7,7,45,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_RF5C68:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_MSM5232:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Group Ctrl"),&ins->std.dutyMacro,0,5,160,uiColors[GUI_COLOR_MACRO_GLOBAL],false,NULL,NULL,true,msm5232ControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Group Attack"),&ins->std.ex1Macro,0,5,96,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Group Decay"),&ins->std.ex2Macro,0,11,160,uiColors[GUI_COLOR_MACRO_GLOBAL]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise"),&ins->std.ex3Macro,0,1,32,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              break;
            case DIV_INS_T6W28:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Type"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_K007232:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_GA20:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_POKEMINI:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,2,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pulse Width"),&ins->std.dutyMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_SUPERVISION:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Noise"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise/PCM Pan"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_SM8521:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,31,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_PV1000:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,1,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_K053260:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-3,3,37,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_TED:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,8,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Square/Noise"),&ins->std.dutyMacro,0,2,80,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true,tedControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_C140:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_C219:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.dutyMacro,0,3,120,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,c219ControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_ESFM:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("OP4 Noise Mode"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_POWERNOISE:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.ex1Macro,0,2,32,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true,powerNoiseControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Tap A Location"),&ins->std.ex4Macro,0,15,96,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Tap B Location"),&ins->std.ex5Macro,0,15,96,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Load LFSR"),&ins->std.ex8Macro,0,16,256,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              break;
            case DIV_INS_POWERNOISE_SLOPE:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,15,46,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.ex1Macro,0,6,96,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,powerNoiseSlopeControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Portion A Length"),&ins->std.ex2Macro,0,255,128,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Portion B Length"),&ins->std.ex3Macro,0,255,128,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Portion A Offset"),&ins->std.ex6Macro,0,15,96,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Portion B Offset"),&ins->std.ex7Macro,0,15,96,uiColors[GUI_COLOR_MACRO_OTHER]));
              break;
            case DIV_INS_DAVE:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,63,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Freq"),&ins->std.dutyMacro,0,3,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,4,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,63,94,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,63,94,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Control"),&ins->std.ex1Macro,0,4,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,daveControlBits));
              break;
            case DIV_INS_NDS:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              if (!ins->amiga.useSample) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,0,7,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-64,63,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_GBA_DMA:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,2,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,panBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              break;
            case DIV_INS_GBA_MINMOD:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Special"),&ins->std.ex1Macro,0,2,96,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,minModModeBits));
              break;
            case DIV_INS_BIFURCATOR:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Parameter"),&ins->std.dutyMacro,0,65535,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Load Value"),&ins->std.ex1Macro,0,65535,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              break;
            case DIV_INS_SID2:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,15,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,ins->c64.dutyIsAbs?0:-4095,4095,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,4,64,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,c64ShapeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Cutoff"),&ins->std.algMacro,ins->c64.filterIsAbs?0:-4095,4095,160,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Resonance"),&ins->std.ex2Macro,0,255,160,uiColors[GUI_COLOR_MACRO_FILTER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter Mode"),&ins->std.ex1Macro,0,3,64,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true,filtModeBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Filter Toggle"),&ins->std.ex3Macro,0,1,32,uiColors[GUI_COLOR_MACRO_FILTER],false,NULL,NULL,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Special"),&ins->std.ex4Macro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,sid2ControlBits));
              macroList.push_back(FurnaceGUIMacroDesc(_("Attack"),&ins->std.ex5Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Decay"),&ins->std.ex6Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Sustain"),&ins->std.ex7Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Release"),&ins->std.ex8Macro,0,15,128,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Noise Mode"),&ins->std.fmsMacro,0,3,64,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Wave Mix"),&ins->std.amsMacro,0,3,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroSID2WaveMixMode));
              break;
            case DIV_INS_UPD1771C:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,31,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,7,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Wave Pos"),&ins->std.ex1Macro,0,31,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Duty/Mode"),&ins->std.dutyMacro,0,1,160,uiColors[GUI_COLOR_MACRO_NOISE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
              break;
            case DIV_INS_SID3:
              macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,255,160,uiColors[GUI_COLOR_MACRO_VOLUME]));

              macroList.push_back(FurnaceGUIMacroDesc(_("Arpeggio"),&ins->std.arpMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.arpMacro.val));
              macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));

              if (ins->sid3.doWavetable) {
                int waveCount=MAX(1,e->song.waveLen-1);
                macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,waveCount,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,false,NULL));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(_("Duty"),&ins->std.dutyMacro,ins->sid3.dutyIsAbs?0:-65535,65535,160,uiColors[GUI_COLOR_MACRO_OTHER]));
                macroList.push_back(FurnaceGUIMacroDesc(_("Waveform"),&ins->std.waveMacro,0,5,16 * 5,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,NULL,true,sid3ShapeBits));
                macroList.push_back(FurnaceGUIMacroDesc(_("Special Wave"),&ins->std.algMacro,0,SID3_NUM_SPECIAL_WAVES - 1,160,uiColors[GUI_COLOR_MACRO_WAVE],false,NULL,macroSID3SpecialWaves));
              }

              if (ins->sid3.separateNoisePitch && !ins->sid3.doWavetable) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise Arpeggio"),&ins->std.opMacros[3].amMacro,-120,120,160,uiColors[GUI_COLOR_MACRO_PITCH],true,NULL,macroHoverNote,false,NULL,true,ins->std.opMacros[3].amMacro.val,true));
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise Pitch"),&ins->std.opMacros[0].arMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode,NULL,false,NULL,false,NULL,false,true));
              }

              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (left)"),&ins->std.panLMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
              macroList.push_back(FurnaceGUIMacroDesc(_("Panning (right)"),&ins->std.panRMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));

              macroList.push_back(FurnaceGUIMacroDesc(_("Channel inversion"),&ins->std.opMacros[2].arMacro,0,2,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,minModModeBits));

              macroList.push_back(FurnaceGUIMacroDesc(_("Key On/Off"),&ins->std.opMacros[0].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));

              macroList.push_back(FurnaceGUIMacroDesc(_("Special"),&ins->std.ex1Macro,0,3,48,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true,sid3ControlBits));

              macroList.push_back(FurnaceGUIMacroDesc(_("Ring Mod Source"),&ins->std.fmsMacro,0,SID3_NUM_CHANNELS,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroSID3SourceChan));
              macroList.push_back(FurnaceGUIMacroDesc(_("Hard Sync Source"),&ins->std.amsMacro,0,SID3_NUM_CHANNELS - 1,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroSID3SourceChan));
              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Mod Source"),&ins->std.fbMacro,0,SID3_NUM_CHANNELS - 1,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroSID3SourceChan));
              
              if (!ins->sid3.doWavetable) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Feedback"),&ins->std.opMacros[3].arMacro,0,255,160,uiColors[GUI_COLOR_MACRO_OTHER]));
              }

              macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));

              if (!ins->sid3.doWavetable) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise Phase Reset"),&ins->std.opMacros[1].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
              }
              macroList.push_back(FurnaceGUIMacroDesc(_("Envelope Reset"),&ins->std.opMacros[2].amMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));

              macroList.push_back(FurnaceGUIMacroDesc(_("Attack"),&ins->std.ex2Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Decay"),&ins->std.ex3Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Sustain"),&ins->std.ex4Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Sustain Rate"),&ins->std.ex5Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Release"),&ins->std.ex6Macro,0,255,160,uiColors[GUI_COLOR_MACRO_ENVELOPE]));

              if (!ins->sid3.doWavetable) {
                macroList.push_back(FurnaceGUIMacroDesc(_("Noise LFSR bits"),&ins->std.ex7Macro,0,30,16 * 30,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,macroSID3NoiseLFSR,true));
                macroList.push_back(FurnaceGUIMacroDesc(_("1-Bit Noise"),&ins->std.opMacros[1].arMacro,0,1,32,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
                macroList.push_back(FurnaceGUIMacroDesc(_("Wave Mix"),&ins->std.ex8Macro,0,4,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroSID3WaveMixMode));
              } else {
                macroList.push_back(FurnaceGUIMacroDesc(_("Sample Mode"),&ins->std.opMacros[1].arMacro,0,1,32,uiColors[GUI_COLOR_MACRO_NOISE],false,NULL,NULL,true));
              }
              break;
            case DIV_INS_MAX:
            case DIV_INS_NULL:
              break;
          }

          drawMacros(macroList,macroEditStateMacros,ins);
          ImGui::EndTabItem();
        }
        if (ins->type==DIV_INS_AY) {
          if (!ins->amiga.useSample)
          {
            if (ImGui::BeginTabItem(_("Timer Macros")))
            {
              ImGui::Text(_("warning: timer effects require direct stream mode to be enabled during VGM export!"));
              macroList.push_back(FurnaceGUIMacroDesc(_("Timer FX"),&ins->std.ex6Macro,0,2,64,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,macroTFXModes));
              macroList.push_back(FurnaceGUIMacroDesc(_("Timer Offset"),&ins->std.ex7Macro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode,NULL,false,NULL,false,NULL,false,true));
              macroList.push_back(FurnaceGUIMacroDesc(_("Timer Num"),&ins->std.ex8Macro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("Timer Den"),&ins->std.fmsMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
              macroList.push_back(FurnaceGUIMacroDesc(_("PWM Boundary"),&ins->std.amsMacro,0,15,64,uiColors[GUI_COLOR_MACRO_OTHER]));
              drawMacros(macroList,macroEditStateMacros,ins);
              ImGui::EndTabItem();
            }
          }
        }
        if (ins->type==DIV_INS_POWERNOISE || ins->type==DIV_INS_POWERNOISE_SLOPE) {
          if (ImGui::BeginTabItem("PowerNoise")) {
            int pnOctave=ins->powernoise.octave;
            if (ImGui::InputInt(_("Octave offset"),&pnOctave,1,4)) { PARAMETER
              if (pnOctave<0) pnOctave=0;
              if (pnOctave>15) pnOctave=15;
              ins->powernoise.octave=pnOctave;
            }
            ImGui::Text(_("go to Macros for other parameters."));
            ImGui::EndTabItem();
          }
        }
        if (ins->type==DIV_INS_NES ||
            ins->type==DIV_INS_AY ||
            ins->type==DIV_INS_AY8930 ||
            ins->type==DIV_INS_MIKEY ||
            ins->type==DIV_INS_PCE ||
            ins->type==DIV_INS_X1_010 ||
            ins->type==DIV_INS_SWAN ||
            ins->type==DIV_INS_VRC6) {
          insTabSample(ins);
        }
        if (ins->type>=DIV_INS_MAX) {
          if (ImGui::BeginTabItem(_("Error"))) {
            ImGui::Text(_("invalid instrument type! change it first."));
            ImGui::EndTabItem();
          }
        }
        ImGui::EndTabBar();
      }
      if (settings.insEditColorize) {
        popAccentColors();
      }
    }
    if (displayMacroMenu) {
      displayMacroMenu=false;
      if (lastMacroDesc.macro!=NULL) {
        ImGui::OpenPopup("macroMenu");
      }
    }
    if (ImGui::BeginPopup("macroMenu",ImGuiWindowFlags_NoMove|ImGuiWindowFlags_AlwaysAutoResize|ImGuiWindowFlags_NoTitleBar|ImGuiWindowFlags_NoSavedSettings)) {
      if (ImGui::MenuItem(_("copy"))) {
        String mmlStr;
        encodeMMLStr(mmlStr,lastMacroDesc.macro->val,lastMacroDesc.macro->len,lastMacroDesc.macro->loop,lastMacroDesc.macro->rel);
        SDL_SetClipboardText(mmlStr.c_str());
      }
      if (ImGui::MenuItem(_("paste"))) {
        String mmlStr;
        char* clipText=SDL_GetClipboardText();
        if (clipText!=NULL) {
          if (clipText[0]) {
            mmlStr=clipText;
          }
          SDL_free(clipText);
        }
        if (!mmlStr.empty()) {
          decodeMMLStr(mmlStr,lastMacroDesc.macro->val,lastMacroDesc.macro->len,lastMacroDesc.macro->loop,lastMacroDesc.min,(lastMacroDesc.isBitfield)?((1<<(lastMacroDesc.isBitfield?lastMacroDesc.max:0))-1):lastMacroDesc.max,lastMacroDesc.macro->rel);
        }
      }
      ImGui::Separator();
      if (ImGui::MenuItem(_("clear"))) {
        lastMacroDesc.macro->len=0;
        lastMacroDesc.macro->loop=255;
        lastMacroDesc.macro->rel=255;
        for (int i=0; i<256; i++) {
          lastMacroDesc.macro->val[i]=0;
        }
      }
      if (ImGui::MenuItem(_("clear contents"))) {
        for (int i=0; i<256; i++) {
          lastMacroDesc.macro->val[i]=0;
        }
      }
      ImGui::Separator();
      if (ImGui::BeginMenu(_("offset..."))) {
        ImGui::InputInt(_("X"),&macroOffX,1,10);
        ImGui::InputInt(_("Y"),&macroOffY,1,10);
        if (ImGui::Button(_("offset"))) {
          int oldData[256];
          memset(oldData,0,256*sizeof(int));
          memcpy(oldData,lastMacroDesc.macro->val,lastMacroDesc.macro->len*sizeof(int));

          for (int i=0; i<lastMacroDesc.macro->len; i++) {
            int val=0;
            bool bit30=false;
            if ((i-macroOffX)>=0 && (i-macroOffX)<lastMacroDesc.macro->len) {
              bit30=enBit30(oldData[i-macroOffX]);
              val=deBit30(oldData[i-macroOffX])+macroOffY;
              if (val<lastMacroDesc.min) val=lastMacroDesc.min;
              if (val>lastMacroDesc.max) val=lastMacroDesc.max;
            }
            lastMacroDesc.macro->val[i]=val^(bit30?0x40000000:0);
          }

          if (lastMacroDesc.macro->loop<lastMacroDesc.macro->len) {
            lastMacroDesc.macro->loop+=macroOffX;
          } else {
            lastMacroDesc.macro->loop=255;
          }
          if ((lastMacroDesc.macro->rel+macroOffX)>=0 && (lastMacroDesc.macro->rel+macroOffX)<lastMacroDesc.macro->len) {
            lastMacroDesc.macro->rel+=macroOffX;
          } else {
            lastMacroDesc.macro->rel=255;
          }

          ImGui::CloseCurrentPopup();
        }
        ImGui::EndMenu();
      }
      if (ImGui::BeginMenu(_("scale..."))) {
        if (ImGui::InputFloat(_("X"),&macroScaleX,1.0f,10.0f,"%.2f%%")) {
          if (macroScaleX<0.1) macroScaleX=0.1;
          if (macroScaleX>12800.0) macroScaleX=12800.0;
        }
        ImGui::InputFloat(_("Y"),&macroScaleY,1.0f,10.0f,"%.2f%%");
        if (ImGui::Button(_("scale"))) {
          int oldData[256];
          memset(oldData,0,256*sizeof(int));
          memcpy(oldData,lastMacroDesc.macro->val,lastMacroDesc.macro->len*sizeof(int));

          lastMacroDesc.macro->len=MIN(255,((double)lastMacroDesc.macro->len*(macroScaleX/100.0)));

          for (int i=0; i<lastMacroDesc.macro->len; i++) {
            int val=0;
            bool bit30=false;
            double posX=round((double)i*(100.0/macroScaleX)-0.01);
            if (posX>=0 && posX<lastMacroDesc.macro->len) {
              val=round((double)deBit30(oldData[(int)posX])*(macroScaleY/100.0));
              bit30=enBit30(oldData[(int)posX]);
              if (val<lastMacroDesc.min) val=lastMacroDesc.min;
              if (val>lastMacroDesc.max) val=lastMacroDesc.max;
            }
            lastMacroDesc.macro->val[i]=val^(bit30?0x40000000:0);
          }

          ImGui::CloseCurrentPopup();
        }
        ImGui::EndMenu();
      }
      if (ImGui::BeginMenu(_("randomize..."))) {
        if (macroRandMin<lastMacroDesc.min) macroRandMin=lastMacroDesc.min;
        if (macroRandMin>lastMacroDesc.max) macroRandMin=lastMacroDesc.max;
        if (macroRandMax<lastMacroDesc.min) macroRandMax=lastMacroDesc.min;
        if (macroRandMax>lastMacroDesc.max) macroRandMax=lastMacroDesc.max;
        ImGui::InputInt(_("Min"),&macroRandMin,1,10);
        ImGui::InputInt(_("Max"),&macroRandMax,1,10);
        if (ImGui::Button(_("randomize"))) {
          for (int i=0; i<lastMacroDesc.macro->len; i++) {
            int val=0;
            if (macroRandMax<=macroRandMin) {
              val=macroRandMin;
            } else {
              val=macroRandMin+(rand()%(macroRandMax-macroRandMin+1));
            }
            lastMacroDesc.macro->val[i]=val;
          }

          ImGui::CloseCurrentPopup();
        }
        ImGui::EndMenu();
      }
      
      ImGui::EndPopup();
    }
  }

  if (ImGui::IsWindowFocused(ImGuiFocusedFlags_ChildWindows)) curWindow=GUI_WINDOW_INS_EDIT;
  ImGui::End();
}

void FurnaceGUI::checkRecordInstrumentUndoStep() {
  if (insEditOpen && curIns>=0 && curIns<(int)e->song.ins.size()) {
    DivInstrument* ins=e->song.ins[curIns];

    // invalidate cachedCurIns/any possible changes if the cachedCurIns was referencing a different
    // instrument altgoether
    bool insChanged=ins!=cachedCurInsPtr;
    if (insChanged) {
      insEditMayBeDirty=false;
      cachedCurInsPtr=ins;
      cachedCurIns=*ins;
    }

    cachedCurInsPtr=ins;

    // check against the last cached to see if diff -- note that modifications to instruments
    // happen outside drawInsEdit (e.g. cursor inputs are processed and can directly modify
    // macro data).  but don't check until we think the user input is complete.
    bool delayDiff=ImGui::IsMouseDown(ImGuiMouseButton_Left) || ImGui::IsMouseDown(ImGuiMouseButton_Right) || ImGui::GetIO().WantCaptureKeyboard;
    if (!delayDiff && insEditMayBeDirty) {
      bool hasChange=ins->recordUndoStepIfChanged(e->processTime, &cachedCurIns);
      if (hasChange) {
        cachedCurIns=*ins;
      }
      insEditMayBeDirty=false;
    }
  } else {
    cachedCurInsPtr=NULL;
    insEditMayBeDirty=false;
  }
}

void FurnaceGUI::doUndoInstrument() {
  if (!insEditOpen) return;
  if (curIns<0 || curIns>=(int)e->song.ins.size()) return;
  DivInstrument* ins=e->song.ins[curIns];
  // is locking the engine necessary? copied from doUndoSample
  e->lockEngine([this,ins]() {
    ins->undo();
    cachedCurInsPtr=ins;
    cachedCurIns=*ins;
  });
}

void FurnaceGUI::doRedoInstrument() {
  if (!insEditOpen) return;
  if (curIns<0 || curIns>=(int)e->song.ins.size()) return;
  DivInstrument* ins=e->song.ins[curIns];
  // is locking the engine necessary? copied from doRedoSample
  e->lockEngine([this,ins]() {
    ins->redo();
    cachedCurInsPtr=ins;
    cachedCurIns=*ins;
  });
}
